ࡱ; WR Fq]CompObj\WordDocument ObjectPool@.E 1E X[ v  !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuwxyz{|}~ i FMicrosoft Word 6.0 DocumentNB6WWord.Document.6; ࡱ; L "Xࡱ; [dxpr MTHU [Grphbj ["[ currentpoint ", Symbol .+ =,Times( 'b)-) value( SummaryInformation(_971677663 FDYq]Ole ;PIC 5L      !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUV\Yc]^_`abdefgh jklmnopvrstu~wxyz{|}q  !"#$%&)*+,-./0123469% + 7 COW _k ive and must be exactly 8Physics Grad Sec:Microsoft:Word folder:Templates:NormalTHE 911Թ PROGRAM SUITESharon BeeverSharon Beever'@E@v@OSJw@Microsoft Word 6.0.14ࡱ; ࡱ; |a|l|u|e|1|3|G|ym|m |2di FMathType Equation1ELO Equationࡱ; ࡱ; ] =Times|b-|v|a|l|u|e|1|3|G|ym|m |2ࡱ; Equationࡱ;  Oh+'0_961497305  Fm/Et0EOle PIC LPICT set of SUITEs:SUITE23 test3 Sharon Beever3Physics Grad Sec:Temporary Items:Word Work File A 2 Sharon BeeverAPhysics Grad Sec: FACULTY: HUNTLEY:a set of SUITEs:SUITE23 test3 @AAA+5b SSSSSSTTT(TTT__e?eBeCe}{{{{{<}=}ր +ABCIRSTUVɫ˫ͫΫϫ׫٫۫ܫݫޫ߫#V$V%V&W'%WGWͱbұHhfL~f~Ih~qrJKabcirstuQvwƯȯɯʯyԯ֯ׯدٯگOMTimes New RomanTimes Symbol"MArialHelvetica MTimes" binary format - Daybreak .ASC format - Ris sequential data file format (2 kinds) - Adelaide Kym format - Lian's TXT format - .SFF format (files written by this program) Details of these formats are provided at the end of this section. The program The program proceeds as follows: (i) The user is asked for the disk drive that the data are on. (ii) The user is asked for the file name; a path can be used if needed in which case one must type everything needed after the drive letter and colon. If a mistake is made and the file does not exist the program will terminate. (iii) The data are then read from the files. If there is information on the files that is relevant other than the data, and it can be allocated to the appropriate variable in the program, then it is read into that variable. Examples of such information are the radiation doses and sample name. (iv) The user is then given a menu in which several items of information are asked for. These are the sample name, grain size and type, excitation, filters used and so on. None of these are needed, but they make the resulting graphs and printouts more meaningful. This can have a long-term benefit by avoiding the necessity of looking at old notebooks. If normalization values are to be entered later, Y or y must be given in answer to the relevant question in this table. (v) There follows a page in which information about each aliquot is asked for. These are: - the code - the dose - the normalization value (if in the previous menu a Y or y is given in answer to the relevant question). If the doses are found on the original file they may be shown and not asked for. Information about each record may be displayed also if it is read from the files as this may help the user to enter the correct code and dose. The codes and doses are needed for the subsequent 911Թ software that requires a file in .SFF format. The choice of required codes is shown at the top of the screen, and will stay there until this operation is finished. The codes are case-sensitive and must be entered exactly as given. If a mistake is made, an opportunity is presented at the end to make changes. (vi) If normalization values are input then the user will be asked whether the data should be divided by them or multiplied by them. The default is divided-by. Data to be normalized may contain a component, such as a dark count, which should not be normalized. Provision is made for this; the user will be asked to provide a number for the constant component. Normalization is then done. (vii) The user is then given the opportunity to add + or - to the codes (see the Common Features section for an explanation) if normalization values have been entered. (viii) The next menu allows the user to: - view the data and plot it - to list it on a printer - create a file of the data in .SFF format In each case the user can select records to be included or excluded. For plotting, read the section in Common Features on plotting graphs. (ix) When making a file in .SFF format: the user chooses the starting and ending channels of the data, and how many channels that are to be summed at a time (eg. with 250 channels of data one may wish to sum channels 51 to 200, 10 at a time). the heading of each column in the .SFF file is the first channel number of those channels that are summed. if a mistake is made during this process it is necessary to complete it; the user is then returned to the menu at which point it is possible to repeat the process. when the user is asked to provide a name for the .SFF file, the complete file specification must be given, including the drive letter, colon and path if needed (the default drive letter is not that of the original data). the .SFF file can be edited with any text editor if one wants to add other information, change the sample name, or make other corrections. This SFF-MAKE program is in the development stage, and is provided as such. If you find errors in the output or bugs in the operation, please let me know. If appropriate, please include a diskette with the data files on it. If your data are in a format that this program will not read, please send a formal description of the data format and a diskette with some example data files on it and I will endeavour to make the program read them. The program will not currently (October, 1998) read Ris binary files; if anyone can provide the detailed information necessary to read them I would very much appreciate it; an interim measure for those using Windows software is to use the method described under Lians text files in the section on file formats. Thank you, D.J.Huntley, Physics Dept, 911Թ, Burnaby, B.C., V5A 1S6, Canada fax: 604-291-3592 e-mail: huntley@sfu.ca REGENERATION PROGRAM General description The purpose of this program is to take two data sets and bring them into coincidence by a shift of one set along the x axis, and, optionally, a vertical scaling factor. This is just as described in the paper Estimation of equivalent dose in thermoluminescence dating - the Australian slide method by J.R.Prescott, D.J.Huntley and J.T.Hutton; Ancient TL, vol.11, pp.1-5, 1993. The ideal case is illustrated in the first figure below in which the ordinate is luminescence intensity and the abscissa is laboratory radiation dose. The two curves are labelled additive dose and regeneration. They are identical except for a horizontal shift, Ds, which may be taken to be the past radiation dose. The user is expected to have two sets of data, one for each curve.  The additive-dose data must be coded UN, UN+ or UN- and the regeneration data coded Reg, Reg+ or Reg- These data must be in a file in .SFF format. This format is described in an appendix at the end of this manual. Note that the codes are case-sensitive and must be exactly as specified. Such a file can be created by the user in any way the user wishes, or by using the SFF-MAKE program. The left figure below shows an example of the two data sets, and the right figure shows the result of the fitting procedure in which the additive-dose data have been shifted to the right in order to obtain an optimum fit of both data sets to a single function, shown by the solid line.   Program The user is first presented with an information screen and then proceeds as follows: (i) The user is asked for the disk drive that the data are on. (ii) The user is asked for the file name; a path can be used if needed in which case one must type everything needed after the drive letter and colon. If a mistake is made and the file does not exist the program will terminate. (iii) The user is then shown how many records and how many columns of photon-count data there are in the file. The word column is used by default and if something is assigned to $Head in the file header, that term will be used instead. (iv) The user is then asked for the first column to be analyzed; if the first column in the file is wanted, just pressing enter will get it. (v) The user is then asked for the last column to be analyzed; if a non-existent column number is entered then the largest existing smaller one will be used. (vi) A number of questions are now asked about the function to be fitted and the output desired. The program then reads the first set of data to be analyzed; the numbers are shown briefly on the screen and then displayed on a graph. (vii) The user is now asked for initial guesses for the fitting parameters; defaults are provided and are usually adequate. (viii) Next the program does a leastsquares fit to the regeneration data in order to obtain better estimates of the fitting parameters. Then the program does a fit of the selected function to both data sets jointly; in this fit the shift of the additive-dose data along the dose axis is a parameter in the fit. If the optional intensity scaling factor is chosen to be a variable it is also a parameter in the fit. (ix) If data for modern analogues are present in the .SFF file then a correction (MC in the inset to the first figure above) is calculated and combined with the dose shift to give the equivalent dose (Deq). For this the data for the modern analogue are simply averaged; no uncertainty is calculated. (x) All the determined quantities may be printed on a printer or written to a file, and a fit shown on the screen can be plotted. Various ways of obtaining a plot are described under Common Features. Five functions are currently available to choose from: - a straight line: Y = k(D-Di) - a quadratic: Y = k1(D-Di) + k2(D-Di)2 - a cubic: Y = k1(D-Di) + k2(D-Di)2 + k3(D-Di)3 - a saturating exponential: Y = Yo(1- exp[-(D-Di)/Dc]( - a saturating exponential + linear: Y = Yo(1- exp[-(D-Di)/Dc]( + k(D-Di) where Y is the luminescence intensity (ordinate variable), D is the dose (abscissa variable) and all other symbols are parameters. Di is the dose at which the curve crosses the dose axis and will normally be negative; Dc is the characteristic dose of the saturating exponential and is the dose at which the intensity is (1 - 1/e) times the saturation value. The program is written in such a way that adding other functions is relatively straightforward and requests to do so will be entertained if accompanied by appropriate data and arguments. Sometimes one is not sure whether to use a linear fit or a non-linear fit because the data look as though there might be a slight departure from linearity. In such cases one should first use the quadratic fit; if the quadratic coefficient (k2) is not significantly different from zero one should then reprocess the data using a linear fit, otherwise one should reprocess the data using a saturating exponential fit. Recommended running procedure The recommended procedure is as follows. Run the program with the intensity scale fixed at unity. Then run the program again with the intensity scale as a variable parameter. Note those fits for which the intensity scale parameter is within 2 standard deviations of unity; for these one can accept the Deq evaluated when the intensity scale was fixed at unity. One should examine, and preferably plot, some of the fits in order to ensure they look reasonable. In most cases they will be, but it is possible to get data that are fitted by the program but for which the fit is clearly inappropriate. As with any optimization routine there is no guarantee that the program will arrive at the global optimum, or at the optimum you wish (which could be different). With good data there need be no concern about this. With poor data the user should be alert and examine the fits to see if they make sense; if they do not, different initial parameters should be tried. The data are assumed to have a scatter about the true curve that is described by a normal distribution with a standard deviation that is proportional to the intensity. Another way of putting this is that it has a constant fractional error. The value of the fraction is a parameter in the fit and is denoted by ( in the output. Actually there are two (s, one for the additive-dose data set and one for the regeneration-data set. In the outputs these are quoted as percentages. If short-shine normalization is used in optical dating then the above model for the treatment of errors is inappropriate, and the scatter of the additive-dose data should be described differently, using two (s for it. An option to do this is provided. It is described in detail in the common features section. Test Data A file named REG-TEST.SFF is provided as an example of correct formatting and for the user to test the program. A sample plot of a fit and a sample printout of the fitting parameters are also provided. INTERCEPT PROGRAM General description The purpose of this program is to make fits to the following kinds of data and to find the appropriate intercept. Additive-dose data Additive-dose data with thermal-transfer-correction data for optical dating. Additive-dose data with partial-bleach data for thermoluminescence dating. Additive-dose data extrapolated to a constant intensity, as in the total-bleach method. Examples are shown in the following three graphs. In the first one a line is fitted to a single set of data and the intercept with the axis is found. In the other cases there are two data sets and the intercept of the two fitted lines is found. 1 2 & 3 4   Types 2 and 3 are functionally equivalent and only differ in the way the data are coded. Type 4 is the same as one of the Type 2 or 3 options and again only differs in the way the data are coded. The data must be in a file in .SFF format. This format is described in an appendix at the end. Such a file can be created by the user in any way the user wishes, or by using the SFFMAKE program. Program The user is first presented with an information screen and then proceeds as follows: (i) The user is asked for the disk drive that the data are on. (ii) The user is asked for the file name; a path can be used if needed in which case one must type everything needed after the drive letter and colon. If a mistake is made and the file does not exist the program will terminate. (iii) The user is then shown how many records and how many columns of data there are in the file. The word column is used by default and if something is assigned to $Head in the file header, that term will be used instead. (iv) The user is then asked for the first column to be analyzed; if the first column in the file is wanted, just pressing enter will get it. (v) The user is then asked for the last column to be analyzed; if a non-existent column number is entered then the largest existing smaller one will be used. (vi) A number of questions are now asked about the function to be fitted and the output desired. The program then reads the first set of data to be analyzed; the numbers are shown briefly on the screen and then displayed on a graph. (vii) The user is now asked for initial guesses for the fitting parameters; defaults are provided and are usually adequate. (viii) Next the program proceeds with the fit. (ix) All the determined quantities may be printed on a printer or written to a file, and a fit shown on the screen can be plotted. Various ways of obtaining a plot are described under Common Features. (x) At the end, a plot of the intercept dose vs column number is shown on the screen and an option to plot it is presented if there is more than one intercept to plot. The different types of fits will now be described. Additive Dose - UN coded data With this option only data coded UN, UN+ or UN- are read from the file. There is a choice of functions for the fit as follows: - a straight line: Y = k(D-Dint) - a quadratic: Y = k1(D-Dint) + k2(D-Dint)2 - a cubic: Y = k1(D-Dint) + k2(D-Dint)2 + k3(D-Dint)3 - a saturating exponential: Y = Yo(1- exp[-(D-Dint)/Dc]( - a saturating exponential + linear: Y = Yo(1- exp[-(D-Dint)/Dc]( + k(D-Dint) where Y is the luminescence intensity (ordinate variable), D is the dose (abscissa variable) and all other symbols are parameters.The main parameter of interest will be the intercept on the dose axis, denoted Dint. A simple additive-dose fit should usually only be used for rough work or for information. It is never exactly the right thing to do to obtain an equivalent dose. The reason is that there is always a non-zero background from the photomultiplier tube; there may also be contributions to the background from scattered incident light or incandescence. Some people subtract the background and then do an additive dose fit to find the dose-axis intercept; if one does this one will not, and cannot, get the statistics of the fit correct; if the background correction is small, however, the error will be insignificant. Caution should be used with any additive-dose fit because one simply does not know the correct form of the extrapolation. Additive Dose with Thermal Transfer Correction - UN and TT coded data With this option, data coded UN, UN+, or UN- are read from the file as additive-dose data and data coded TT, TT+ or TT- are read for the thermal transfer correction. These are treated as measurements corresponding to two functions as follows: YTT = Yint + f(D-Dint) Yadd = YTT + g(D-Dint) = Yint + f(D-Dint) + g(D-Dint). Yint and Dint are the intensity and dose at which the two functions intercept. The two functions f( ) and g( ) are are chosen by the user from menus. D is the dose read from the file. Note that with this model the additivedose intensity is considered to be equal to the thermaltransfer intensity + an additional intensity. The choice of functions for the fits is: - a constant k - a straight line: k(D-Dint) - a quadratic: k1(D-Dint) + k2(D-Dint)2 - a cubic: k1(D-Dint) + k2(D-Dint)2 + k3(D-Dint)3 - a saturating exponential: Yo(1- exp[-(D-Dint)/Dc]( - a saturating exponential + linear: Yo(1- exp[-(D-Dint)/Dc]( + k(D-Dint) First the user is asked which of these to pick for f( ) for the TT coded data. Then the user is asked which to pick for g( ), the addition. There is a restriction that g( ) cannot be less complicated than f( ). The quantities k, k1, k2, k3, Yo and Dc are parameters in the fits. Additive Dose with Partial Bleach - UN and PB coded data This is functionally the same as the additive dose with thermal transfer correction option and differs only in that data coded PB are read from the file instead of data coded TT. Total Bleach - UN and TB coded data This is functionally the same as the previous two options when f( ) is a constant. Thus the additive dose data are fitted to Y = YTB + g(D-Dint) where YTB is a constant, determined by the maximum likelihood fit to the TB coded data, and g( ) is a function from the list above. Other - UN and dc or ec or rh coded data This is identical to the previous option except that TB is replaced with one of the following: dc (for dark count) ec (for empty chamber) rh (for reheat) a code entered from the keyboard (your choice) One might want to use one of the first two when doing a simple additive-dose measurement. The third one would be useful for a TL measurement in which the incandescence was significant and measured by a reheat. Test data A file named INT-TEST.SFF is provided as an example of correct formatting and for the user to test the program. A sample plot of a fit and a sample printout of the fitting parameters are also provided. b-VALUE PROGRAM General Description This program takes additive-alpha-dose data and additive-beta or gamma-dose data and jointly fits them to a single function. In doing so the alpha doses are scaled to yield the optimum fit. This scaling factor is a parameter in the fit and is what is defined as the b-value. Program The .SFF file must have the following two sets of data, code data UN, UN+ or UN- additive (- or (-dose data (UN, (UN+, or (UN- additive (-dose data An example of a fit to obtain a b-value is shown in the following graph.  figure courtesy of O.B.Lian Any units can be used for the two dose units according to the taste of the operator, but the header in the .SFF file is designed so that the units of the b-value are properly given if the values to the following are given in the header. $DoseUnit, $DoseType, and $AlphaDoseUnit. Thus for example if the header includes $DoseUnit,Gy $DoseType,( $AlphaDoseUnit,(m-2 the units of the b-value will be shown as Gy.(m2 on the screen, in the table or in the file. If the information provided in the header is, for example, minutes for the alpha doses, minutes for beta doses, and ( for the dose type, then the b-value will be given in minutes ( per minute ( and this can then later manually be converted to proper units. If no information is given in the header the b-value will be given without units. If the .SFF file is made using the SFF-MAKE program then the proper header will be written if the user has entered the appropriate information when asked for it. The functions that can be used to fit the data are the same as those listed under additive-dose fits: - linear - quadratic - saturating exponential - saturating exponential + linear All the parameters in the fits, and their uncertainities, are printed to a file if that option is chosen. Because of the way avalues are defined, it is not possible to make a program that yields avalues without requiring the user to use specific units, thus if avalues are desired then the user should calculate bvalues and later make the conversion as follows: a-value EMBED Equation  The a-value has no units. COMMON FEATURES Plotting the graphs When a graph of a fit is shown on the screen you are asked if you want to plot it. If you do not want to plot it just press the enter key since the default is no. You can press the enter key in advance to prevent the program stopping at the graphs as many times as you want. If you answer Y (for yes) then you will be asked whether the graph is to be output to COM1, COM2, or a file. Select COM1 if a plotter is connected to the COM1 serial port, or COM2 if a plotter is connect to the COM2 serial port. The plotter should use HPGL (Hewlett-Packard graphics language); almost all plotters do. The plotter should be set to 9600 baud. If you select the File option the program asks you for a file name and then writes the HPGL code to the file. You can then take the file to another computer with a plotter attached and just copy the file to the plotter. Alternatively you can import this file into a graphics program for further processing. If no plotter is available but you have a printer, there are two further options. The first is to use the Print Screen key on the keyboard. In order for this to work the DOS GRAPHICS command must be executed before starting the program. Type and enter HELP GRAPHICS to obtain the details. Do not use the Print Screen key if you have chosen to print the fitting parameters to the printer as the two will interfere with each other. The second option will give you a much nicer graph on your printer, but is more trouble. You must obtain a copy of the program PRINTGL. It is shareware and can be downloaded from the web page of Ravitz Software Inc. in Kentucky, U.S.A. The procedure is to obtain the HPGL file of the graph as described above, and use PRINTGL to print the graph on your printer. The resulting graph will probably be even nicer than one obtained using a plotter. Writing the result to a file If you choose this option you are asked for a file name. A header is first written to the file with information about the sample and the type of fits made to the data. The fitting parameters (and their uncertainties) for each column of the data are then written as they are calculated. The end result is a table, including the column headings for it. Strings are written in quotation marks and commas are used as delimiters. The file is designed to be imported into a spreadsheet and should be quite readable there. Precision and fitting All calculations are double precision. Maximum likelihood calculations are used to obtain the fits. The uncertainties in the parameters are evaluated by inverting the Hessian, which is evaluated numerically. Maximization is done using a simplex routine. While this is taking place the current values of the parameters are shown in groups on the screen. The top left number of each set is proportional to the negative of the likelihood, and will generally be decreasing with time. When it no longer changes within the precision set by the user, the parameters are deemed to be optimized; the simplex routine is then repeated using this new set of parameters as a starting point, again until the likelihood no longer changes. The purpose of the repeat is to attempt to find a better maximum. The other numbers displayed in each group are the parameters in the fit and ending with the (s. The simplex routine used for the optimization is slower than other strategies, but has several advantages. It can be used with any function that can be programmed (even non-analytic ones), it is easier to program, and it cannot crash. It is, however, possible for the program to crash during evaluation of the likelihood, although most possibilities have been eliminated. If a crash occurs it is probably due to a poor choice of the initial parameters, or poor data. Note that the calculated intensity at any of the data dose values is restricted to being positive; this will normally be expected anyway. The desired precision in the maximum likelihood routine is set by the user. If the number is set very small, for example 10-15, the program will take longer, and could end up in an endless loop and never terminate. If the number is set relatively large the program will take less time, but may not reach a proper maximum; if this happens the user will be notified. For safety the program should be run with successively smaller values until there is no change in the output. A value of 10-13 will probably suffice for most good data. Printing the data The option of printing the data is to allow the user to debug incorrectly formatted data. Initial Parameter Estimates The user is asked to provide initial estimates of the parameters. The data are shown on the screen to make this easy. Defaults are provided and should normally suffice. If the program fails to produce a fit, run it again but choose the initial estimates of the parameters carefully. It is unlikely that this will be necessary, except occasionally with very scattered data. Codes with + and - added (e.g. UN+, Reg-) The extra + and - have no effect on the data processing, but the final graphs produced by the regeneration and intercept programs show on each point whether the normalization value was larger or smaller than 1. The + and - are added to the codes on the basis of whether the normalization reduces or increases the intensity, respectively. If the code for the point has a + sign the top half of the symbol will be shown filled in; if the code has a - sign the lower half of the symbol will be filled in. Thus for example: UN+ points will be shown as Reg+ points will be shown as UN- points will be shown as Reg- points will be shown as The intent is that the + or - signs are to be used to see whether or not there is a correlation between normalization value and position relative to the fit for the set of points. If there is a systematic effect of points above the line having low normalization values and points below the line having high normalization values, then one has cause for concern. This may be an indication that not all the grains were well exposed to sufficient sunlight at the time of deposition. This is discussed in D.J.Huntley and G.W.Berger, Scatter in Luminescence Data for Optical Dating - some Models. Ancient TL 13, pp.5-9, 1995. Fixed or variable ( for the additive dose (N+dose) data There is a choice of two ways to treat the scatter in the additive dose data. (a) The scatter can be treated in the analysis as though it can be described by a normal distribution with, for each point: mean value = calculated intensity standard deviation = a fixed fraction of the calculated intensity. This fraction will be denoted by (. The actual fraction is a parameter in the fit. It is likely to come out to be in the range ( = 0.01 to 0.10 (ie 1-10%). This number is shown on the screen, plotted graph, printed table and results file, depending on which of these the user asks for. This option will be appropriate if the scatter results from the aliquots having different masses, or different sensitivities to radiation for the different aliquots, in either case with a normal distribution. (b) The scatter can be treated in the analysis as though there is one ( for the zero-dose (naturals) intensity, and a different ( for any intensity larger than this. The reason for introducing the two (s is that in optical dating one usually does an initial "short shine" on all the aliquots, and uses these intensities to normalize the final data. This has the effect of greatly reducing the scatter in general, and can reduce the scatter for the zero-dose points to a very small value, possibly under 1%. The scatter in the points at added doses will not usually be as small. For example ( for the zero-dose points may be 1% while the scatter at the largest applied dose may be 5%. In this case the model in option (a) is inappropriate, and this option (b) would be apropriate as the intensity can be considered as the sum of two components. When using this option both ('s are shown on the screen and graph. When the results are printed on a printer both ('s are printed on a separate line after all the other parameters. When the results are written to a file they are listed as ((Nat) e((Nat) and ((add) e((add). When you are using the two-( option the optimizing routine is more likely to go astray and not find the proper fit. If this happens run the program using option (a) and make a note of the fitting parameters. Then run it again using option (b) using these fitting parameters instead of the default ones. You will know the program has gone astray because it will give you an error message and no fit. You can notice that this is going to happen if you watch the screen during fitting; ((add), which is the last parameter shown on the screen, becomes much less than 0.001 and is decreasing exponentially with time. Final Note For cases, admittedly very rare, in which Poisson statistics (i.e. counting statistics) makes a significant contribution, these programs will not deal with the statistics correctly. Bugs The graphs and printouts of the fitting parameters are designed to accomodate reasonable values of them. If unusual numbers are used (for example a set of doses such as 0, 2 x 10-6, 4 x 10-6) then the formatting may produce something unreadable. The correct values will be written to a file if that option is chosen. If DOS is run from Windows one should do so using the full screen mode; if it is run from a window it may crash. Please report other bugs to D.J.Huntley, preferably accompanied by a diskette with the data file and a description of the bug. The version number of your software is printed on the screen with the copyright notice at the end when you have finished running the program. Specifications of the various data formats that can be read. Ris Sequential Data Files These should not be confused with Ris Sequence files; they have nothing to do with each other. There are two kinds of Ris Sequential Data Files; they are referred to here as old and new. The following are taken from Ris manuals. (1) Old: (after Fig 27 of the Ris TL Dating System Model TL-DA-10 manual, - with added notes ) Test file for Rainer a note 24 number of glow curves 700 max end point temp 200 lower integration temp 400 upper integration temp 1 run no 1 group no 1 sample no 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 1 1 2 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 0.000E+00 . . etc (2) New: (copied from the Ris Model TL/OSL-DA-12 manual) Note - file information 12 - number of samples 2 - sample type (1=TL, 2=infrared OSL, 6=green, 5=short shine) 600 - max temp/time (x 0.1 sec) 1.319 E + 0003 - integral 1 - run no. 1 - sample no. 158 174 179 164 168 . (channel counts(250)) Daybreak .ASC files Each row in these files is one record. Each record consists of the following sequence, each item having a defined position (field) in the record: glowcurve run number text description in quotes including a bleach code (B for before irradiation, A for after, plus bleach time in minutes (M suffix) or hours (H suffix) 0 or 1 (1 indicates the natural TL is included) alpha dose in (m-2 beta dose in Gy gamma dose in Gy 0 -1 or 1 (0 for no bleach, -1 if bleach before irradiation, 1 if after) bleach time in minutes a set of numbers which are 10 (C averages from 250 to 450(C . Daybreak binary files Each file consists of a continuous sequence of records, each being 990 bytes long. Each record being as follows. Double means double precision. Note that several bytes are not used and that counting starts at zero. This description is for TL, but the extension to optical excitation can be imagined. bytes type variable 0-1 integer actual number of entries in the glow curve 2-3 integer # of degrees C between subsequent points in the glowcurve (set at 5) 4-5 integer run # - this is a serial #, the 1st aliquot measured is 0, the 2nd is 1 etc. 6-7 integer the position in the turntable 8-9 integer identifies the record as a TL measurement if it is <2000 10 integer # of points in the record. This is fixed at 99, for 100 points. 12 boolean true for a 1st glow, false for 2nd glow 14 boolean true for TL measurement, false for a background measurement 16 boolean true if bleaching was before irradiation, false if bleaching was after 18-25 double bleach time 26-33 double ramp rate 34-41 double dose rate for the gamma source 42-49 double dose rate for the beta source 49-57 double dose rate for the alpha source 58-61 double gamma dose 66-73 double beta dose 74-81 double alpha dose 82-89 double shift (?), 4 time bases and background count rate 91-97 string units of gamma irradiation 99-105 string units of beta irradiation 107-113 string units of alpha irradiation 115-121 string bfilter (?) 123-129 string type of gamma source 131-137 string type of beta source 139-145 string type of alpha source 147-148 date bits 1-7 are the year - 1900, 8-12 are the day, and 13-16 are the month 149-189 string remark about this aliquot measurement 190-989 double the 100 points of the data note: the 2-byte integers should be read in reverse order. Lians text files The data are formatted as follows. Here each record is a column. s1, s2 etc are the column headings and are text. The ns are the photon counts. s1, s2, s3, s4, s5, s6, s7, . . . . . n11, n21, n31, n41, n51, n61, n71, . . . . . n12, n22, n32, n42, n52, n62, n72, . . . . . n13, n23, n33, n43, n53, n63, n73, . . . . . n14, n24, n34, n44, n54, n64, n74, . . . . . . . . The SFF-MAKE program figures out how many records and channels there are by reading the file. Such a file can be created in many ways. A simple way to do it from Ris windows software is to: open the VIEW menu load the binary files you want select all the records in the file by dragging the mouse use the special copy command (the records have automatically been converted to ASCII, and are now in the Windows clipboard) open a windows spreadsheet paste (you now see all the data, but only the data) transpose the data manually add the header for each column save this as a text file with commas as delimiters. FILE FORMAT of .SFF FILES Bold upright items must be as shown (but not in bold font). Items in italics are parameters as described below, in which: s or t indicates a string d, n or z indicates a number. $Name,s1 $Info,s2 $DoseUnit,s3 $DoseType,s4 $AlphaDoseUnit,s5 $Head,s6 $Points,np $Columns,nc $**$ Head,Dose,n1,n2,n3, . . . . . . . t1,d1,z11,z12,z13, . . . . . . . . . . t2,d2,z21,z22,z23, . . . . . . . . . . t3,d3,z31,z32,z33, . . . . . . . . . . . . ti,di,zi1,zi2,zi3, . . . . . . . . . . . where: s1 = sample name s2 = other information you wish on the output s3 = units of the radiation doses (eg: Gy or minutes). s4 = type of radiation, either ( or (. s5 = units of the ( doses. s6 = meaning of the column headings, ie what the ns mean (eg channel, temperature etc) ti = the code for this row of data, specifically: ti = UN for additive dose data (N + dose, unbleached aliquots) ti = (UN for additive ( dose data (N + ( dose, unbleached aliquots) ti = Reg for regeneration data (N + bleach + dose aliquots) ti = TT for thermal-transfer correction aliquots (N + dose + bleach aliquots) ti = PB for partial bleach aliquots (N + dose + partial bleach aliquots) ti = TB for total bleach aliquots (N.+ total bleach aliquots) ti = Mod for modern analogue aliquots ti = Nnp for natural no preheat aliquots ti = Bnp for natural + bleach but no preheat aliquots ti = dc for dark count ti = ec for empty chamber ti = rh for reheat (for TL) di = the dose associated with this row of data. zij = are the photon counts; there are np rows and nc columns. Each row contains the data for one record, i.e. shine-down curve or glow curve. The column headings, ni, are the channel numbers, temperatures, or whatever you wish, for that column, as indicated by s6. They must be in increasing order. The UN, (UN, Reg, TT and PB codes may have a + or - sign added to the code to indicate whether the normalization value for the aliquot was >1 or <1. Here normalization value is taken to mean the number by which the raw data were divided by during normalization. Additional valid codes are thus: UN+, UN-, (UN+, (UN-, Reg+, Reg- and so on. The initial group of lines which start with $ signs have some flexibility. They can be in any sequence except that $**$ must be the last one. Other lines can be inserted but they will be ignored. The $Points, $Columns and $**$ are required; the others are optional, and are used to enhance the information on the output graphs, tables and files. PAGE 13 PAGE 13  @A|HHL XG(HH(d'`PRNTe2:~@1$  S&WordMicrosoft Word&Word 1  2 @@$Use Word 6.0c or later to 2 @$view Macintosh picture. h h#currentpoint "h$/picTop exch def /picLeft exch def 4currentpoint /picBottom exch def /picRight exch def [ 0 0 468 360] 1 dict begin /s exch def picLeft picTop translate picRight picLeft sub s 2 get s 0 get sub div picBottom picTop sub s 1 get s 3 get sub div scale s 0 get neg s 3 get neg translate end /showpage {} def /copypage {} def %!PS-Adobe-2.0 EPSF-1.2 %%BoundingBox: 0 0 468 360 %%%%DocumentFonts: /Helvetica %%Title: Axum PostScript file %%Creator: TriMetrix, Inc. %%Pages: 1 %%EndComments % Copyright 1988-1991 by TriMetrix, Inc. All rights reserved. -100 0 translate 1.2 1.2 scale /downdict 4 dict def /sdown {downdict begin /thestring exch def /lineskip exch def thestring { /charcode exch def /thechar ( ) dup 0 charcode put def 0 lineskip neg rmoveto gsave thechar stringwidth pop 2 div neg 0 rmoveto thechar show grestore } forall end } def /updict 4 dict def /sup {updict begin /thestring exch def /lineskip exch def thestring { /charcode exch def /thechar ( ) dup 0 charcode put def 0 lineskip rmoveto gsave thechar stringwidth pop 2 div neg 0 rmoveto thechar show grestore } forall end } def /leftdict 4 dict def /sleft {leftdict begin /thestring exch def thestring { /charcode exch def /thechar ( ) dup 0 charcode put def gsave thechar stringwidth pop neg 0 rmoveto thechar show grestore } forall thechar stringwidth pop neg 0 rmoveto end } def /path{newpath moveto{lineto}repeat} bind def /cnp{newpath moveto{lineto}repeat closepath} bind def /clp{moveto{lineto}repeat closepath} bind def /rps{ 3 1 roll path stroke} bind def /rcs{ 3 1 roll clp stroke} bind def /setF { currentscreen 4 -2 roll pop 3 1 roll setscreen} bind def % required due to WinWord 2.0 bug: /II { } def /reencodedict 5 dict def /reencode { reencodedict begin /newencoding exch def /newfontname exch def /basefontname exch def /basefontdict basefontname findfont def /newfont basefontdict maxlength dict def basefontdict { exch dup dup /FID ne exch /Encoding ne and { exch newfont 3 1 roll put } { pop pop } ifelse } forall newfont /FontName newfontname put newfont /Encoding newencoding put newfontname newfont definefont pop end } def /axumencoding [ /.notdef % 0 /.notdef % 1 /.notdef % 2 /.notdef % 3 /.notdef % 4 /.notdef % 5 /.notdef % 6 /.notdef % 7 /.notdef % 8 /.notdef % 9 /.notdef % 10 /.notdef % 11 /.notdef % 12 /.notdef % 13 /.notdef % 14 /.notdef % 15 /.notdef % 16 /.notdef % 17 /.notdef % 18 /.notdef % 19 /.notdef % 20 /.notdef % 21 /.notdef % 22 /.notdef % 23 /.notdef % 24 /.notdef % 25 /.notdef % 26 /.notdef % 27 /.notdef % 28 /.notdef % 29 /.notdef % 30 /.notdef % 31 /space % 32 /exclam % 33 /quotedbl % 34 /numbersign % 35 /dollar % 36 /percent % 37 /ampersand % 38 /quoteright % 39 /parenleft % 40 /parenright % 41 /asterisk % 42 /plus % 43 /comma % 44 /hyphen % 45 /period % 46 /slash % 47 /zero % 48 /one % 49 /two % 50 /three % 51 /four % 52 /five % 53 /six % 54 /seven % 55 /eight % 56 /nine % 57 /colon % 58 /semicolon % 59 /less % 60 /equal % 61 /greater % 62 /question % 63 /at % 64 /A % 65 /B % 66 /C % 67 /D % 68 /E % 69 /F % 70 /G % 71 /H % 72 /I % 73 /J % 74 /K % 75 /L % 76 /M % 77 /N % 78 /O % 79 /P % 80 /Q % 81 /R % 82 /S % 83 /T % 84 /U % 85 /V % 86 /W % 87 /X % 88 /Y % 89 /Z % 90 /bracketleft % 91 /backslash % 92 /bracketright % 93 /asciicircum % 94 /underscore % 95 /quoteleft % 96 /a % 97 /b % 98 /c % 99 /d % 100 /e % 101 /f % 102 /g % 103 /h % 104 /i % 105 /j % 106 /k % 107 /l % 108 /m % 109 /n % 110 /o % 111 /p % 112 /q % 113 /r % 114 /s % 115 /t % 116 /u % 117 /v % 118 /w % 119 /x % 120 /y % 121 /z % 122 /braceleft % 123 /bar % 124 /braceright % 125 /asciitilde % 126 /.notdef % 127 /Ccedilla % 128 /udieresis % 129 /eacute % 130 /acircumflex % 131 /adieresis % 132 /agrave % 133 /aring % 134 /ccedilla % 135 /ecircumflex % 136 /edieresis % 137 /egrave % 138 /idieresis % 139 /icircumflex % 140 /igrave % 141 /Adieresis % 142 /Aring % 143 /Eacute % 144 /ae % 145 /AE % 146 /ocircumflex % 147 /odieresis % 148 /ograve % 149 /ucircumflex % 150 /ugrave % 151 /ydieresis % 152 /Odieresis % 153 /Udieresis % 154 /cent % 155 /sterling % 156 /yen % 157 /currency % 158 /florin % 159 /aacute % 160 /iacute % 161 /oacute % 162 /uacute % 163 /ntilde % 164 /Ntilde % 165 /ordfeminine % 166 /ordmasculine % 167 /questiondown % 168 /quotedblleft % 169 /quotedblright % 170 /Aacute % 171 /Acircumflex % 172 /exclamdown % 173 /Egrave % 174 /Ecircumflex % 175 /atilde % 176 /otilde % 177 /Edieresis % 178 /Igrave % 179 /oe % 180 /OE % 181 /Agrave % 182 /Atilde % 183 /Otilde % 184 /section % 185 /Iacute % 186 /Icircumflex % 187 /Idieresis % 188 /Ograve % 189 /Oacute % 190 /Ocircumflex % 191 /Ugrave % 192 /Uacute % 193 /Ucircumflex % 194 /Ydieresis % 195 /germandbls % 196 /guillemotleft % 197 /guillemotright % 198 /bullet % 199 /.notdef % 200 /.notdef % 201 /.notdef % 202 /.notdef % 203 /.notdef % 204 /.notdef % 205 /.notdef % 206 /.notdef % 207 /.notdef % 208 /.notdef % 209 /.notdef % 210 /.notdef % 211 /.notdef % 212 /.notdef % 213 /.notdef % 214 /.notdef % 215 /.notdef % 216 /.notdef % 217 /.notdef % 218 /.notdef % 219 /.notdef % 220 /.notdef % 221 /.notdef % 222 /.notdef % 223 /.notdef % 224 /.notdef % 225 /.notdef % 226 /.notdef % 227 /.notdef % 228 /.notdef % 229 /.notdef % 230 /.notdef % 231 /.notdef % 232 /.notdef % 233 /.notdef % 234 /.notdef % 235 /.notdef % 236 /.notdef % 237 /.notdef % 238 /.notdef % 239 /.notdef % 240 /.notdef % 241 /.notdef % 242 /.notdef % 243 /.notdef % 244 /.notdef % 245 /.notdef % 246 /.notdef % 247 /.notdef % 248 /.notdef % 249 /.notdef % 250 /.notdef % 251 /.notdef % 252 /.notdef % 253 /.notdef % 254 /.notdef % 255 ] def /axumfindfont { /axumfont axumencoding reencode /axumfont findfont } def /MainFont /Helvetica axumfindfont 98 scalefont def MainFont setfont 1 setli3nejoin 0 setlinecap 0 setgray gsave 72 630 div dup scale 0.0 setgray [] 0 setdash 1 setlinewidth 1253 716 2686 716 1 rps 1253 716 2686 716 1 rps 1249 1790 2690 1790 1 rps 1252 715 2687 715 1 rps 1252 715 2686 715 1 rps 1249 1791 2690 1791 1 rps 1251 714 2688 714 1 rps 1251 714 2686 714 1 rps 1249 1792 2690 1792 1 rps 1250 713 2689 713 1 rps 1250 713 2686 713 1 rps 1249 1793 2690 1793 1 rps 1249 712 2690 712 1 rps 1249 712 2686 712 1 rps 1249 1794 2690 1794 1 rps /Helvetica axumfindfont 62 scalefont setfont 1645 618 moveto (0) show 1253 716 1253 1790 1 rps 1252 715 1252 1791 1 rps 1251 714 1251 1792 1 rps 1250 713 1250 1793 1 rps 1249 712 1249 1794 1 rps 2686 716 2686 1790 1 rps 2687 715 2687 1791 1 rps 2688 714 2688 1792 1 rps 2689 713 2689 1793 1 rps 2690 712 2690 1794 1 rps 1662 851 1683 886 1703 920 1724 953 1744 984 1765 1014 1785 1043 1806 1070 1826 1097 1847 1123 1867 1147 1888 1171 1908 1194 1929 1216 1949 1237 1969 1257 1990 1277 2010 1296 2031 1314 2051 1332 2072 1349 2092 1365 2113 1381 2133 1396 2154 1411 2174 1425 2195 1439 2215 1453 2236 1466 2256 1478 2277 1490 2297 1502 2318 1514 2338 1525 2358 1535 2379 1546 2399 1556 2420 1566 2440 1576 2461 1585 2481 1594 2502 1603 2522 1612 2543 1620 2563 1628 2584 1636 2604 1644 2625 1652 2645 1660 2666 1667 2686 1674 50 rps [20 20] 0 setdash 1591 716 1601 736 1621 776 1642 814 1662 851 4 rps 1386 716 1396 736 1417 776 1437 814 1458 851 1478 886 1499 920 1519 953 1540 984 1560 1014 1581 1043 1601 1070 1621 1097 1642 1123 1662 1147 14 rps [] 0 setdash 1642 1123 1662 1147 1683 1171 1703 1194 1724 1216 1744 1237 1765 1257 1785 1277 1806 1296 1826 1314 1847 1332 1867 1349 1888 1365 1908 1381 1929 1396 1949 1411 1969 1425 1990 1439 2010 1453 2031 1466 2051 1478 2072 1490 2092 1502 2113 1514 2133 1525 2154 1535 2174 1546 2195 1556 2215 1566 2236 1576 2256 1585 2277 1594 2297 1603 2318 1612 2338 1620 2358 1628 2379 1636 2399 1644 2420 1652 2440 1660 2461 1667 2481 1674 2502 1681 2522 1688 2543 1695 2563 1702 2584 1708 2604 1714 2625 1721 2645 1727 2666 1733 2686 1739 51 rps /Helvetica axumfindfont 75 scalefont setfont 1707 482 moveto (laboratory dose) show 1116 1242 moveto 90 rotate ( ) show -90 rotate 2479 850 moveto (B) show 2379 787 moveto (C) show 2542 764 moveto (M) show 1728 1610 moveto (additive) show 1728 1542 moveto (dose) show 2178 1251 moveto (regeneration) show 1501 891 moveto (D) show /Helvetica axumfindfont 55 scalefont setfont 1555 873 moveto (s) show /Helvetica axumfindfont 75 scalefont setfont 1737 1178 moveto (D) show /Helvetica axumfindfont 55 scalefont setfont 1791 1160 moveto (s) show /Helvetica axumfindfont 75 scalefont setfont 2324 1615 moveto (D) show /Helvetica axumfindfont 55 scalefont setfont 2378 1597 moveto (s) show /Helvetica axumfindfont 75 scalefont setfont 1009 1360 moveto (photon) show 1009 1287 moveto (counts) show 1692 832 moveto (B) show 1454 850 1659 850 1 rps 1615 827 1659 850 1 rps 1615 872 1659 850 1 rps 1497 872 1454 850 1 rps 1497 827 1454 850 1 rps 1659 1146 1864 1146 1 rps 1820 1123 1864 1146 1 rps 1820 1168 1864 1146 1 rps 1702 1168 1659 1146 1 rps 1702 1123 1659 1146 1 rps 2274 1592 2478 1592 1 rps 2434 1569 2478 1592 1 rps 2434 1614 2478 1592 1 rps 2317 1614 2274 1592 1 rps 2317 1569 2274 1592 1 rps 1909 1551 1975 1484 1 rps 2000 1460 1959 1469 1 rps 1959 1469 1990 1500 1 rps 1990 1500 2000 1460 1 rps 2132 1264 2063 1295 1 rps 2032 1310 2073 1315 1 rps 2073 1315 2054 1275 1 rps 2054 1275 2032 1310 1 rps 1659 714 1659 1788 1 rps 2314 714 2314 964 1 rps 2314 964 2683 964 1 rps 2519 714 2519 964 1 rps 2437 787 2524 787 1 rps 2319 714 2683 950 1 rps grestore showpage %Trailer %EOF .+ 1This EPS image does not contain a screen preview.*0It will print correctly to a PostScript printer.*File Name : REG.EPS*Title : Axum PostScript file*Creator : TriMetrix, Inc.* Pages : 1darP:~@1$  S&WordMicrosoft Word&Word TO  h+Fx"+fJwF'!FTHE 911Թ PROGRAM SUITE Sharon Beever Sharon Beeverࡱ; 2 @@$Use Word 6.0c or later to 2 @$view Macintosh picture. h h#currentpoint "h$/picTop exch def /picLeft exch def 4currentpoint /picBottom exch def /picRight exch def [ 0 0 468 360] 1 dict begin /s exch def picLeft picTop translate picRight picLeft sub s 2 get s 0 get sub div picBottom picTop sub s 1 get s 3 get sub div scale s 0 get neg s 3 get neg translate end /showpage {} def /copypage {} def %!PS-Adobe-2.0 EPSF-1.2 %%BoundingBox: 0 0 468 360 %%%%DocumentFonts: /Helvetica %%Title: Axum PostScript file %%Creator: TriMetrix, Inc. %%Pages: 1 %%EndComments % Copyright 1988-1991 by TriMetrix, Inc. All rights reserved. /downdict 4 dict def /sdown {downdict begin /thestring exch def /lineskip exch def thestring { /charcode exch def /thechar ( ) dup 0 charcode put def 0 lineskip neg rmoveto gsave thechar stringwidth pop 2 div neg 0 rmoveto thechar show grestore } forall end } def /updict 4 dict def /sup {updict begin /thestring exch def /lineskip exch def thestring { /charcode exch def /thechar ( ) dup 0 charcode put def 0 lineskip rmoveto gsave thechar stringwidth pop 2 div neg 0 rmoveto thechar show grestore } forall end } def /leftdict 4 dict def /sleft {leftdict begin /thestring exch def thestring { /charcode exch def /thechar ( ) dup 0 charcode put def gsave thechar stringwidth pop neg 0 rmoveto thechar show grestore } forall thechar stringwidth pop neg 0 rmoveto end } def /path{newpath moveto{lineto}repeat} bind def /cnp{newpath moveto{lineto}repeat closepath} bind def /clp{moveto{lineto}repeat closepath} bind def /rps{ 3 1 roll path stroke} bind def /rcs{ 3 1 roll clp stroke} bind def /setF { currentscreen 4 -2 roll pop 3 1 roll setscreen} bind def % required due to WinWord 2.0 bug: /II { } def /reencodedict 5 dict def /reencode { reencodedict begin /newencoding exch def /newfontname exch def /basefontname exch def /basefontdict basefontname findfont def /newfont basefontdict maxlength dict def basefontdict { exch dup dup /FID ne exch /Encoding ne and { exch newfont 3 1 roll put } { pop pop } ifelse } forall newfont /FontName newfontname put newfont /Encoding newencoding put newfontname newfont definefont pop end } def /axumencoding [ /.notdef % 0 /.notdef % 1 /.notdef % 2 /.notdef % 3 /.notdef % 4 /.notdef % 5 /.notdef % 6 /.notdef % 7 /.notdef % 8 /.notdef % 9 /.notdef % 10 /.notdef % 11 /.notdef % 12 /.notdef % 13 /.notdef % 14 /.notdef % 15 /.notdef % 16 /.notdef % 17 /.notdef % 18 /.notdef % 19 /.notdef % 20 /.notdef % 21 /.notdef % 22 /.notdef % 23 /.notdef % 24 /.notdef % 25 /.notdef % 26 /.notdef % 27 /.notdef % 28 /.notdef % 29 /.notdef % 30 /.notdef % 31 /space % 32 /exclam % 33 /quotedbl % 34 /numbersign % 35 /dollar % 36 /percent % 37 /ampersand % 38 /quoteright % 39 /parenleft % 40 /parenright % 41 /asterisk % 42 /plus % 43 /comma % 44 /hyphen % 45 /period % 46 /slash % 47 /zero % 48 /one % 49 /two % 50 /three % 51 /four % 52 /five % 53 /six % 54 /seven % 55 /eight % 56 /nine % 57 /colon % 58 /semicolon % 59 /less % 60 /equal % 61 /greater % 62 /question % 63 /at % 64 /A % 65 /B % 66 /C % 67 /D % 68 /E % 69 /F % 70 /G % 71 /H % 72 /I % 73 /J % 74 /K % 75 /L % 76 /M % 77 /N % 78 /O % 79 /P % 80 /Q % 81 /R % 82 /S % 83 /T % 84 /U % 85 /V % 86 /W % 87 /X % 88 /Y % 89 /Z % 90 /bracketleft % 91 /backslash % 92 /bracketright % 93 /asciicircum % 94 /underscore % 95 /quoteleft % 96 /a % 97 /b % 98 /c % 99 /d % 100 /e % 101 /f % 102 /g % 103 /h % 104 /i % 105 /j % 106 /k % 107 /l % 108 /m % 109 /n % 110 /o % 111 /p % 112 /q % 113 /r % 114 /s % 115 /t % 116 /u % 117 /v % 118 /w % 119 /x % 120 /y % 121 /z % 122 /braceleft % 123 /bar % 124 /braceright % 125 /asciitilde % 126 /.notdef % 127 /Ccedilla % 128 /udieresis % 129 /eacute % 130 /acircumflex % 131 /adieresis % 132 /agrave % 133 /aring % 134 /ccedilla % 135 /ecircumflex % 136 /edieresis % 137 /egrave % 138 /idieresis % 139 /icircumflex % 140 /igrave % 141 /Adieresis % 142 /Aring % 143 /Eacute % 144 /ae % 145 /AE % 146 /ocircumflex % 147 /odieresis % 148 /ograve % 149 /ucircumflex % 150 /ugrave % 151 /ydieresis % 152 /Odieresis % 153 /Udieresis % 154 /cent % 155 /sterling % 156 /yen % 157 /currency % 158 /florin % 159 /aacute % 160 /iacute % 161 /oacute % 162 /uacute % 163 /ntilde % 164 /Ntilde % 165 /ordfeminine % 166 /ordmasculine % 167 /questiondown % 168 /quotedblleft % 169 /quotedblright % 170 /Aacute % 171 /Acircumflex % 172 /exclamdown % 173 /Egrave % 174 /Ecircumflex % 175 /atilde % 176 /otilde % 177 /Edieresis % 178 /Igrave % 179 /oe % 180 /OE % 181 /Agrave % 182 /Atilde % 183 /Otilde % 184 /section % 185 /Iacute % 186 /Icircumflex % 187 /Idieresis % 188 /Ograve % 189 /Oacute % 190 /Ocircumflex % 191 /Ugrave % 192 /Uacute % 193 /Ucircumflex % 194 /Ydieresis % 195 /germandbls % 196 /guillemotleft % 197 /guillemotright % 198 /bullet % 199 /.notdef % 200 /.notdef % 201 /.notdef % 202 /.notdef % 203 /.notdef % 204 /.notdef % 205 /.notdef % 206 /.notdef % 207 /.notdef % 208 /.notdef % 209 /.notdef % 210 /.notdef % 211 /.notdef % 212 /.notdef % 213 /.notdef % 214 /.notdef % 215 /.notdef % 216 /.notdef % 217 /.notdef % 218 /.notdef % 219 /.notdef % 220 /.notdef % 221 /.notdef % 222 /.notdef % 223 /.notdef % 224 /.notdef % 225 /.notdef % 226 /.notdef % 227 /.notdef % 228 /.notdef % 229 /.notdef % 230 /.notdef % 231 /.notdef % 232 /.notdef % 233 /.notdef % 234 /.notdef % 235 /.notdef % 236 /.notdef % 237 /.notdef % 238 /.notdef % 239 /.notdef % 240 /.notdef % 241 /.notdef % 242 /.notdef % 243 /.notdef % 244 /.notdef % 245 /.notdef % 246 /.notdef % 247 /.notdef % 248 /.notdef % 249 /.notdef % 250 /.notdef % 251 /.notdef % 252 /.notdef % 253 /.notdef % 254 /.notdef % 255 ] def /axumfindfont { /axumfont axumencoding reencode /axumfont findfont } def /MainFont /Helvetica axumfindfont 98 scalefont def MainFont setfont 1 setlinejoin 0 setlinecap 0 setgray g save 72 630 div dup scale 0.0 setgray [] 0 setdash 1 setlinewidth 537 537 3403 537 1 rps 537 537 3403 537 1 rps 533 2686 3407 2686 1 rps 536 536 3404 536 1 rps 536 536 3403 536 1 rps 533 2687 3407 2687 1 rps 535 535 3405 535 1 rps 535 535 3403 535 1 rps 533 2688 3407 2688 1 rps 534 534 3406 534 1 rps 534 534 3403 534 1 rps 533 2689 3407 2689 1 rps 533 533 3407 533 1 rps 533 533 3403 533 1 rps 533 2690 3407 2690 1 rps 537 537 537 573 1 rps 537 2686 537 2650 1 rps 823 537 823 555 1 rps 823 2686 823 2668 1 rps 1110 537 1110 573 1 rps 1110 2686 1110 2650 1 rps 1396 537 1396 555 1 rps 1396 2686 1396 2668 1 rps 1683 537 1683 573 1 rps 1683 2686 1683 2650 1 rps 1969 537 1969 555 1 rps 1969 2686 1969 2668 1 rps 2257 537 2257 573 1 rps 2257 2686 2257 2650 1 rps 2543 537 2543 555 1 rps 2543 2686 2543 2668 1 rps 2830 537 2830 573 1 rps 2830 2686 2830 2650 1 rps 3116 537 3116 555 1 rps 3116 2686 3116 2668 1 rps 3403 537 3403 573 1 rps 3403 2686 3403 2650 1 rps /Helvetica axumfindfont 150 scalefont setfont 495 376 moveto (0) show 984 376 moveto (100) show 1557 376 moveto (200) show 2131 376 moveto (300) show 2704 376 moveto (400) show 3277 376 moveto (500) show 537 537 537 2686 1 rps 536 536 536 2687 1 rps 535 535 535 2688 1 rps 534 534 534 2689 1 rps 533 533 533 2690 1 rps 3403 537 3403 2686 1 rps 3404 536 3404 2687 1 rps 3405 535 3405 2688 1 rps 3406 534 3406 2689 1 rps 3407 533 3407 2690 1 rps 537 537 573 537 1 rps 3403 537 3367 537 1 rps 537 1074 555 1074 1 rps 3403 1074 3385 1074 1 rps 537 1611 573 1611 1 rps 3403 1611 3367 1611 1 rps 537 2148 555 2148 1 rps 3403 2148 3385 2148 1 rps 537 2686 573 2686 1 rps 3403 2686 3367 2686 1 rps 399 484 moveto (0) show 61 1558 moveto (20000) show 61 2633 moveto (40000) show 3396 2359 3410 2359 3424 2366 3431 2373 3438 2387 3438 2401 3431 2415 3424 2422 3410 2429 3396 2429 3382 2422 3375 2415 3368 2401 3368 2387 3375 2373 3382 2366 3396 2359 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 2250 1907 2264 1907 2278 1914 2285 1921 2292 1935 2292 1949 2285 1963 2278 1970 2264 1977 2250 1977 2236 1970 2229 1963 2222 1949 2222 1935 2229 1921 2236 1914 2250 1907 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 2250 2211 2264 2211 2278 2218 2285 2225 2292 2239 2292 2253 2285 2267 2278 2274 2264 2281 2250 2281 2236 2274 2229 2267 2222 2253 2222 2239 2229 2225 2236 2218 2250 2211 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1218 1481 1232 1481 1246 1488 1253 1495 1260 1509 1260 1523 1253 1537 1246 1544 1232 1551 1218 1551 1204 1544 1197 1537 1190 1523 1190 1509 1197 1495 1204 1488 1218 1481 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1218 1506 1232 1506 1246 1513 1253 1520 1260 1534 1260 1548 1253 1562 1246 1569 1232 1576 1218 1576 1204 1569 1197 1562 1190 1548 1190 1534 1197 1520 1204 1513 1218 1506 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1218 1525 1232 1525 1246 1532 1253 1539 1260 1553 1260 1567 1253 1581 1246 1588 1232 1595 1218 1595 1204 1588 1197 1581 1190 1567 1190 1553 1197 1539 1204 1532 1218 1525 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 989 1353 1003 1353 1017 1360 1024 1367 1031 1381 1031 1395 1024 1409 1017 1416 1003 1423 989 1423 975 1416 968 1409 961 1395 961 1381 968 1367 975 1360 989 1353 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 989 1382 1003 1382 1017 1389 1024 1396 1031 1410 1031 1424 1024 1438 1017 1445 1003 1452 989 1452 975 1445 968 1438 961 1424 961 1410 968 1396 975 1389 989 1382 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 989 1372 1003 1372 1017 1379 1024 1386 1031 1400 1031 1414 1024 1428 1017 1435 1003 1442 989 1442 975 1435 968 1428 961 1414 961 1400 968 1386 975 1379 989 1372 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 530 711 544 711 558 718 565 725 572 739 572 753 565 767 558 774 544 781 530 781 516 774 509 767 502 753 502 739 509 725 516 718 530 711 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 530 682 544 682 558 689 565 696 572 710 572 724 565 738 558 745 544 752 530 752 516 745 509 738 502 724 502 710 509 696 516 689 530 682 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 530 725 544 725 558 732 565 739 572 753 572 767 565 781 558 788 544 795 530 795 516 788 509 781 502 767 502 753 509 739 516 732 530 725 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 530 695 544 695 558 702 565 709 572 723 572 737 565 751 558 758 544 765 530 765 516 758 509 751 502 737 502 723 509 709 516 702 530 695 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 989 1286 1003 1286 1017 1293 1024 1300 1031 1314 1031 1328 1024 1342 1017 1349 1003 1356 989 1356 975 1349 968 1342 961 1328 961 1314 968 1300 975 1293 989 1286 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 989 1340 1003 1340 1017 1347 1024 1354 1031 1368 1031 1382 1024 1396 1017 1403 1003 1410 989 1410 975 1403 968 1396 961 1382 961 1368 968 1354 975 1347 989 1340 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 989 1292 1003 1292 1017 1299 1024 1306 1031 1320 1031 1334 1024 1348 1017 1355 1003 1362 989 1362 975 1355 968 1348 961 1334 961 1320 968 1306 975 1299 989 1292 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1218 1599 1232 1599 1246 1606 1253 1613 1260 1627 1260 1641 1253 1655 1246 1662 1232 1669 1218 1669 1204 1662 1197 1655 1190 1641 1190 1627 1197 1613 1204 1606 1218 1599 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1218 1567 1232 1567 1246 1574 1253 1581 1260 1595 1260 1609 1253 1623 1246 1630 1232 1637 1218 1637 1204 1630 1197 1623 1190 1609 1190 1595 1197 1581 1204 1574 1218 1567 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1218 1658 1232 1658 1246 1665 1253 1672 1260 1686 1260 1700 1253 1714 1246 1721 1232 1728 1218 1728 1204 1721 1197 1714 1190 1700 1190 1686 1197 1672 1204 1665 1218 1658 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1676 1828 1690 1828 1704 1835 1711 1842 1718 1856 1718 1870 1711 1884 1704 1891 1690 1898 1676 1898 1662 1891 1655 1884 1648 1870 1648 1856 1655 1842 1662 1835 1676 1828 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1676 1832 1690 1832 1704 1839 1711 1846 1718 1860 1718 1874 1711 1888 1704 1895 1690 1902 1676 1902 1662 1895 1655 1888 1648 1874 1648 1860 1655 1846 1662 1839 1676 1832 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 2250 2092 2264 2092 2278 2099 2285 2106 2292 2120 2292 2134 2285 2148 2278 2155 2264 2162 2250 2162 2236 2155 2229 2148 2222 2134 2222 2120 2229 2106 2236 2099 2250 2092 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 3396 2351 3410 2351 3424 2358 3431 2365 3438 2379 3438 2393 3431 2407 3424 2414 3410 2421 3396 2421 3382 2414 3375 2407 3368 2393 3368 2379 3375 2365 3382 2358 3396 2351 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 3396 2266 3410 2266 3424 2273 3431 2280 3438 2294 3438 2308 3431 2322 3424 2329 3410 2336 3396 2336 3382 2329 3375 2322 3368 2308 3368 2294 3375 2280 3382 2273 3396 2266 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 2106 771 2120 771 2134 778 2141 785 2148 799 2148 813 2141 827 2134 834 2120 841 2106 841 2092 834 2085 827 2078 813 2078 799 2085 785 2092 778 2106 771 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 0.0 setgray 2816 2468 2844 2468 1 rps 2816 2538 2844 2538 1 rps 2795 2489 2795 2517 1 rps 2865 2489 2865 2517 1 rps 2795 2503 2865 2503 1 rps 2830 2468 2830 2538 1 rps 1669 2130 1697 2130 1 rps 1669 2200 1697 2200 1 rps 1648 2151 1648 2179 1 rps 1718 2151 1718 2179 1 rps 1648 2165 1718 2165 1 rps 1683 2130 1683 2200 1 rps 1669 1935 1697 1935 1 rps 1669 2005 1697 2005 1 rps 1648 1956 1648 1984 1 rps 1718 1956 1718 1984 1 rps 1648 1970 1718 1970 1 rps 1683 1935 1683 2005 1 rps 1096 1644 1124 1644 1 rps 1096 1714 1124 1714 1 rps 1075 1665 1075 1693 1 rps 1145 1665 1145 1693 1 rps 1075 1679 1145 1679 1 rps 1110 1644 1110 1714 1 rps 523 1385 551 1385 1 rps 523 1455 551 1455 1 rps 502 1406 502 1434 1 rps 572 1406 572 1434 1 rps 502 1420 572 1420 1 rps 537 1385 537 1455 1 rps 523 1428 551 1428 1 rps 523 1498 551 1498 1 rps 502 1449 502 1477 1 rps 572 1449 572 1477 1 rps 502 1463 572 1463 1 rps 537 1428 537 1498 1 rps 523 1458 551 1458 1 rps 523 1528 551 1528 1 rps 502 1479 502 1507 1 rps 572 1479 572 1507 1 rps 502 1493 572 1493 1 rps 537 1458 537 1528 1 rps 523 1447 551 1447 1 rps 523 1517 551 1517 1 rps 502 1468 502 1496 1 rps 572 1468 572 1496 1 rps 502 1482 572 1482 1 rps 537 1447 537 1517 1 rps 523 1325 551 1325 1 rps 523 1395 551 1395 1 rps 502 1346 502 1374 1 rps 572 1346 572 1374 1 rps 502 1360 572 1360 1 rps 537 1325 537 1395 1 rps 1096 1781 1124 1781 1 rps 1096 1851 1124 1851 1 rps 1075 1802 1075 1830 1 rps 1145 1802 1145 1830 1 rps 1075 1816 1145 1816 1 rps 1110 1781 1110 1851 1 rps 1096 1747 1124 1747 1 rps 1096 1817 1124 1817 1 rps 1075 1768 1075 1796 1 rps 1145 1768 1145 1796 1 rps 1075 1782 1145 1782 1 rps 1110 1747 1110 1817 1 rps 1669 2018 1697 2018 1 rps 1669 2088 1697 2088 1 rps 1648 2039 1648 2067 1 rps 1718 2039 1718 2067 1 rps 1648 2053 1718 2053 1 rps 1683 2018 1683 2088 1 rps 2816 2179 2844 2179 1 rps 2816 2249 2844 2249 1 rps 2795 2200 2795 2228 1 rps 2865 2200 2865 2228 1 rps 2795 2214 2865 2214 1 rps 2830 2179 2830 2249 1 rps 2816 2284 2844 2284 1 rps 2816 2354 2844 2354 1 rps 2795 2305 2795 2333 1 rps 2865 2305 2865 2333 1 rps 2795 2319 2865 2319 1 rps 2830 2284 2830 2354 1 rps 2099 932 2127 932 1 rps 2099 1002 2127 1002 1 rps 2078 953 2078 981 1 rps 2148 953 2148 981 1 rps 2078 967 2148 967 1 rps 2113 932 2113 1002 1 rps 537 708 587 758 537 808 487 758 3 rcs 537 710 587 760 537 810 487 760 3 rcs 537 708 587 758 537 808 487 758 3 rcs 537 684 587 734 537 784 487 734 3 rcs 2113 605 2163 655 2113 705 2063 655 3 rcs 1445 154 moveto (laboratory dose) show /Helvetica axumfindfont 75 scalefont setfont 0 1601 moveto 90 rotate ( ) show -90 rotate /Helvetica axumfindfont 150 scalefont setfont 35 2260 moveto (photon) show 35 2083 moveto (counts) show 2268 934 moveto (additive dose) show 2268 777 moveto (regeneration) show 2268 634 moveto (modern) show grestore showpage %Trailer %EOF .+ 1This EPS image does not contain a screen preview.*0It will print correctly to a PostScript printer.*File Name : CH-36.EPS*Title : Axum PostScript file*Creator : TriMetrix, Inc.* Pages : 1R:~@1$  S&WordMicrosoft Word&Word Q  2 @@$Use Word 6.0c or later to 2 @$view Macintosh picture. h h#currentpoint "h$/picTop exch def /picLeft exch def 4currentpoint /picBottom exch def /picRight exch def [ 0 0 468 360] 1 dict begin /s exch def picLeft picTop translate picRight picLeft sub s 2 get s 0 get sub div picBottom picTop sub s 1 get s 3 get sub div scale s 0 get neg s 3 get neg translate end /showpage {} def /copypage {} def %!PS-Adobe-2.0 EPSF-1.2 %%BoundingBox: 0 0 468 360 %%%%DocumentFonts: /Helvetica %%Title: Axum PostScript file %%Creator: TriMetrix, Inc. %%Pages: 1 %%EndComments % Copyright 1988-1991 by TriMetrix, Inc. All rights reserved. /downdict 4 dict def /sdown {downdict begin /thestring exch def /lineskip exch def thestring { /charcode exch def /thechar ( ) dup 0 charcode put def 0 lineskip neg rmoveto gsave thechar stringwidth pop 2 div neg 0 rmoveto thechar show grestore } forall end } def /updict 4 dict def /sup {updict begin /thestring exch def /lineskip exch def thestring { /charcode exch def /thechar ( ) dup 0 charcode put def 0 lineskip rmoveto gsave thechar stringwidth pop 2 div neg 0 rmoveto thechar show grestore } forall end } def /leftdict 4 dict def /sleft {leftdict begin /thestring exch def thestring { /charcode exch def /thechar ( ) dup 0 charcode put def gsave thechar stringwidth pop neg 0 rmoveto thechar show grestore } forall thechar stringwidth pop neg 0 rmoveto end } def /path{newpath moveto{lineto}repeat} bind def /cnp{newpath moveto{lineto}repeat closepath} bind def /clp{moveto{lineto}repeat closepath} bind def /rps{ 3 1 roll path stroke} bind def /rcs{ 3 1 roll clp stroke} bind def /setF { currentscreen 4 -2 roll pop 3 1 roll setscreen} bind def % required due to WinWord 2.0 bug: /II { } def /reencodedict 5 dict def /reencode { reencodedict begin /newencoding exch def /newfontname exch def /basefontname exch def /basefontdict basefontname findfont def /newfont basefontdict maxlength dict def basefontdict { exch dup dup /FID ne exch /Encoding ne and { exch newfont 3 1 roll put } { pop pop } ifelse } forall newfont /FontName newfontname put newfont /Encoding newencoding put newfontname newfont definefont pop end } def /axumencoding [ /.notdef % 0 /.notdef % 1 /.notdef % 2 /.notdef % 3 /.notdef % 4 /.notdef % 5 /.notdef % 6 /.notdef % 7 /.notdef % 8 /.notdef % 9 /.notdef % 10 /.notdef % 11 /.notdef % 12 /.notdef % 13 /.notdef % 14 /.notdef % 15 /.notdef % 16 /.notdef % 17 /.notdef % 18 /.notdef % 19 /.notdef % 20 /.notdef % 21 /.notdef % 22 /.notdef % 23 /.notdef % 24 /.notdef % 25 /.notdef % 26 /.notdef % 27 /.notdef % 28 /.notdef % 29 /.notdef % 30 /.notdef % 31 /space % 32 /exclam % 33 /quotedbl % 34 /numbersign % 35 /dollar % 36 /percent % 37 /ampersand % 38 /quoteright % 39 /parenleft % 40 /parenright % 41 /asterisk % 42 /plus % 43 /comma % 44 /hyphen % 45 /period % 46 /slash % 47 /zero % 48 /one % 49 /two % 50 /three % 51 /four % 52 /five % 53 /six % 54 /seven % 55 /eight % 56 /nine % 57 /colon % 58 /semicolon % 59 /less % 60 /equal % 61 /greater % 62 /question % 63 /at % 64 /A % 65 /B % 66 /C % 67 /D % 68 /E % 69 /F % 70 /G % 71 /H % 72 /I % 73 /J % 74 /K % 75 /L % 76 /M % 77 /N % 78 /O % 79 /P % 80 /Q % 81 /R % 82 /S % 83 /T % 84 /U % 85 /V % 86 /W % 87 /X % 88 /Y % 89 /Z % 90 /bracketleft % 91 /backslash % 92 /bracketright % 93 /asciicircum % 94 /underscore % 95 /quoteleft % 96 /a % 97 /b % 98 /c % 99 /d % 100 /e % 101 /f % 102 /g % 103 /h % 104 /i % 105 /j % 106 /k % 107 /l % 108 /m % 109 /n % 110 /o % 111 /p % 112 /q % 113 /r % 114 /s % 115 /t % 116 /u % 117 /v % 118 /w % 119 /x % 120 /y % 121 /z % 122 /braceleft % 123 /bar % 124 /braceright % 125 /asciitilde % 126 /.notdef % 127 /Ccedilla % 128 /udieresis % 129 /eacute % 130 /acircumflex % 131 /adieresis % 132 /agrave % 133 /aring % 134 /ccedilla % 135 /ecircumflex % 136 /edieresis % 137 /egrave % 138 /idieresis % 139 /icircumflex % 140 /igrave % 141 /Adieresis % 142 /Aring % 143 /Eacute % 144 /ae % 145 /AE % 146 /ocircumflex % 147 /odieresis % 148 /ograve % 149 /ucircumflex % 150 /ugrave % 151 /ydieresis % 152 /Odieresis % 153 /Udieresis % 154 /cent % 155 /sterling % 156 /yen % 157 /currency % 158 /florin % 159 /aacute % 160 /iacute % 161 /oacute % 162 /uacute % 163 /ntilde % 164 /Ntilde % 165 /ordfeminine % 166 /ordmasculine % 167 /questiondown % 168 /quotedblleft % 169 /quotedblright % 170 /Aacute % 171 /Acircumflex % 172 /exclamdown % 173 /Egrave % 174 /Ecircumflex % 175 /atilde % 176 /otilde % 177 /Edieresis % 178 /Igrave % 179 /oe % 180 /OE % 181 /Agrave % 182 /Atilde % 183 /Otilde % 184 /section % 185 /Iacute % 186 /Icircumflex % 187 /Idieresis % 188 /Ograve % 189 /Oacute % 190 /Ocircumflex % 191 /Ugrave % 192 /Uacute % 193 /Ucircumflex % 194 /Ydieresis % 195 /germandbls % 196 /guillemotleft % 197 /guillemotright % 198 /bullet % 199 /.notdef % 200 /.notdef % 201 /.notdef % 202 /.notdef % 203 /.notdef % 204 /.notdef % 205 /.notdef % 206 /.notdef % 207 /.notdef % 208 /.notdef % 209 /.notdef % 210 /.notdef % 211 /.notdef % 212 /.notdef % 213 /.notdef % 214 /.notdef % 215 /.notdef % 216 /.notdef % 217 /.notdef % 218 /.notdef % 219 /.notdef % 220 /.notdef % 221 /.notdef % 222 /.notdef % 223 /.notdef % 224 /.notdef % 225 /.notdef % 226 /.notdef % 227 /.notdef % 228 /.notdef % 229 /.notdef % 230 /.notdef % 231 /.notdef % 232 /.notdef % 233 /.notdef % 234 /.notdef % 235 /.notdef % 236 /.notdef % 237 /.notdef % 238 /.notdef % 239 /.notdef % 240 /.notdef % 241 /.notdef % 242 /.notdef % 243 /.notdef % 244 /.notdef % 245 /.notdef % 246 /.notdef % 247 /.notdef % 248 /.notdef % 249 /.notdef % 250 /.notdef % 251 /.notdef % 252 /.notdef % 253 /.notdef % 254 /.notdef % 255 ] def /axumfindfont { /axumfont axumencoding reencode /axumfont findfont } def /MainFont /Helvetica axumfindfont 98 scalefont def MainFont setfont 1 setlinejoin 0 setlinecap 0 setgray g save 72 630 div dup scale 0.0 setgray [] 0 setdash 1 setlinewidth 537 537 3403 537 1 rps 537 537 3403 537 1 rps 533 2686 3407 2686 1 rps 536 536 3404 536 1 rps 536 536 3403 536 1 rps 533 2687 3407 2687 1 rps 535 535 3405 535 1 rps 535 535 3403 535 1 rps 533 2688 3407 2688 1 rps 534 534 3406 534 1 rps 534 534 3403 534 1 rps 533 2689 3407 2689 1 rps 533 533 3407 533 1 rps 533 533 3403 533 1 rps 533 2690 3407 2690 1 rps 537 537 537 573 1 rps 537 2686 537 2650 1 rps 823 537 823 555 1 rps 823 2686 823 2668 1 rps 1110 537 1110 573 1 rps 1110 2686 1110 2650 1 rps 1396 537 1396 555 1 rps 1396 2686 1396 2668 1 rps 1683 537 1683 573 1 rps 1683 2686 1683 2650 1 rps 1969 537 1969 555 1 rps 1969 2686 1969 2668 1 rps 2257 537 2257 573 1 rps 2257 2686 2257 2650 1 rps 2543 537 2543 555 1 rps 2543 2686 2543 2668 1 rps 2830 537 2830 573 1 rps 2830 2686 2830 2650 1 rps 3116 537 3116 555 1 rps 3116 2686 3116 2668 1 rps 3403 537 3403 573 1 rps 3403 2686 3403 2650 1 rps /Helvetica axumfindfont 150 scalefont setfont 495 376 moveto (0) show 984 376 moveto (100) show 1557 376 moveto (200) show 2131 376 moveto (300) show 2704 376 moveto (400) show 3277 376 moveto (500) show 537 537 537 2686 1 rps 536 536 536 2687 1 rps 535 535 535 2688 1 rps 534 534 534 2689 1 rps 533 533 533 2690 1 rps 3403 537 3403 2686 1 rps 3404 536 3404 2687 1 rps 3405 535 3405 2688 1 rps 3406 534 3406 2689 1 rps 3407 533 3407 2690 1 rps 537 537 573 537 1 rps 3403 537 3367 537 1 rps 537 1074 555 1074 1 rps 3403 1074 3385 1074 1 rps 537 1611 573 1611 1 rps 3403 1611 3367 1611 1 rps 537 2148 555 2148 1 rps 3403 2148 3385 2148 1 rps 537 2686 573 2686 1 rps 3403 2686 3367 2686 1 rps 399 484 moveto (0) show 61 1558 moveto (20000) show 61 2633 moveto (40000) show 3396 2359 3410 2359 3424 2366 3431 2373 3438 2387 3438 2401 3431 2415 3424 2422 3410 2429 3396 2429 3382 2422 3375 2415 3368 2401 3368 2387 3375 2373 3382 2366 3396 2359 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 2250 1907 2264 1907 2278 1914 2285 1921 2292 1935 2292 1949 2285 1963 2278 1970 2264 1977 2250 1977 2236 1970 2229 1963 2222 1949 2222 1935 2229 1921 2236 1914 2250 1907 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 2250 2211 2264 2211 2278 2218 2285 2225 2292 2239 2292 2253 2285 2267 2278 2274 2264 2281 2250 2281 2236 2274 2229 2267 2222 2253 2222 2239 2229 2225 2236 2218 2250 2211 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1218 1481 1232 1481 1246 1488 1253 1495 1260 1509 1260 1523 1253 1537 1246 1544 1232 1551 1218 1551 1204 1544 1197 1537 1190 1523 1190 1509 1197 1495 1204 1488 1218 1481 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1218 1506 1232 1506 1246 1513 1253 1520 1260 1534 1260 1548 1253 1562 1246 1569 1232 1576 1218 1576 1204 1569 1197 1562 1190 1548 1190 1534 1197 1520 1204 1513 1218 1506 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1218 1525 1232 1525 1246 1532 1253 1539 1260 1553 1260 1567 1253 1581 1246 1588 1232 1595 1218 1595 1204 1588 1197 1581 1190 1567 1190 1553 1197 1539 1204 1532 1218 1525 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 989 1353 1003 1353 1017 1360 1024 1367 1031 1381 1031 1395 1024 1409 1017 1416 1003 1423 989 1423 975 1416 968 1409 961 1395 961 1381 968 1367 975 1360 989 1353 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 989 1382 1003 1382 1017 1389 1024 1396 1031 1410 1031 1424 1024 1438 1017 1445 1003 1452 989 1452 975 1445 968 1438 961 1424 961 1410 968 1396 975 1389 989 1382 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 989 1372 1003 1372 1017 1379 1024 1386 1031 1400 1031 1414 1024 1428 1017 1435 1003 1442 989 1442 975 1435 968 1428 961 1414 961 1400 968 1386 975 1379 989 1372 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 530 711 544 711 558 718 565 725 572 739 572 753 565 767 558 774 544 781 530 781 516 774 509 767 502 753 502 739 509 725 516 718 530 711 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 530 682 544 682 558 689 565 696 572 710 572 724 565 738 558 745 544 752 530 752 516 745 509 738 502 724 502 710 509 696 516 689 530 682 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 530 725 544 725 558 732 565 739 572 753 572 767 565 781 558 788 544 795 530 795 516 788 509 781 502 767 502 753 509 739 516 732 530 725 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 530 695 544 695 558 702 565 709 572 723 572 737 565 751 558 758 544 765 530 765 516 758 509 751 502 737 502 723 509 709 516 702 530 695 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 989 1286 1003 1286 1017 1293 1024 1300 1031 1314 1031 1328 1024 1342 1017 1349 1003 1356 989 1356 975 1349 968 1342 961 1328 961 1314 968 1300 975 1293 989 1286 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 989 1340 1003 1340 1017 1347 1024 1354 1031 1368 1031 1382 1024 1396 1017 1403 1003 1410 989 1410 975 1403 968 1396 961 1382 961 1368 968 1354 975 1347 989 1340 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 989 1292 1003 1292 1017 1299 1024 1306 1031 1320 1031 1334 1024 1348 1017 1355 1003 1362 989 1362 975 1355 968 1348 961 1334 961 1320 968 1306 975 1299 989 1292 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1218 1599 1232 1599 1246 1606 1253 1613 1260 1627 1260 1641 1253 1655 1246 1662 1232 1669 1218 1669 1204 1662 1197 1655 1190 1641 1190 1627 1197 1613 1204 1606 1218 1599 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1218 1567 1232 1567 1246 1574 1253 1581 1260 1595 1260 1609 1253 1623 1246 1630 1232 1637 1218 1637 1204 1630 1197 1623 1190 1609 1190 1595 1197 1581 1204 1574 1218 1567 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1218 1658 1232 1658 1246 1665 1253 1672 1260 1686 1260 1700 1253 1714 1246 1721 1232 1728 1218 1728 1204 1721 1197 1714 1190 1700 1190 1686 1197 1672 1204 1665 1218 1658 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1676 1828 1690 1828 1704 1835 1711 1842 1718 1856 1718 1870 1711 1884 1704 1891 1690 1898 1676 1898 1662 1891 1655 1884 1648 1870 1648 1856 1655 1842 1662 1835 1676 1828 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1676 1832 1690 1832 1704 1839 1711 1846 1718 1860 1718 1874 1711 1888 1704 1895 1690 1902 1676 1902 1662 1895 1655 1888 1648 1874 1648 1860 1655 1846 1662 1839 1676 1832 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 2250 2092 2264 2092 2278 2099 2285 2106 2292 2120 2292 2134 2285 2148 2278 2155 2264 2162 2250 2162 2236 2155 2229 2148 2222 2134 2222 2120 2229 2106 2236 2099 2250 2092 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 3396 2351 3410 2351 3424 2358 3431 2365 3438 2379 3438 2393 3431 2407 3424 2414 3410 2421 3396 2421 3382 2414 3375 2407 3368 2393 3368 2379 3375 2365 3382 2358 3396 2351 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 3396 2266 3410 2266 3424 2273 3431 2280 3438 2294 3438 2308 3431 2322 3424 2329 3410 2336 3396 2336 3382 2329 3375 2322 3368 2308 3368 2294 3375 2280 3382 2273 3396 2266 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 2106 771 2120 771 2134 778 2141 785 2148 799 2148 813 2141 827 2134 834 2120 841 2106 841 2092 834 2085 827 2078 813 2078 799 2085 785 2092 778 2106 771 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 0.0 setgray 3330 2468 3358 2468 1 rps 3330 2538 3358 2538 1 rps 3309 2489 3309 2517 1 rps 3379 2489 3379 2517 1 rps 3309 2503 3379 2503 1 rps 3344 2468 3344 2538 1 rps 2184 2130 2212 2130 1 rps 2184 2200 2212 2200 1 rps 2163 2151 2163 2179 1 rps 2233 2151 2233 2179 1 rps 2163 2165 2233 2165 1 rps 2198 2130 2198 2200 1 rps 2184 1935 2212 1935 1 rps 2184 2005 2212 2005 1 rps 2163 1956 2163 1984 1 rps 2233 1956 2233 1984 1 rps 2163 1970 2233 1970 1 rps 2198 1935 2198 2005 1 rps 1611 1644 1639 1644 1 rps 1611 1714 1639 1714 1 rps 1590 1665 1590 1693 1 rps 1660 1665 1660 1693 1 rps 1590 1679 1660 1679 1 rps 1625 1644 1625 1714 1 rps 1038 1385 1066 1385 1 rps 1038 1455 1066 1455 1 rps 1017 1406 1017 1434 1 rps 1087 1406 1087 1434 1 rps 1017 1420 1087 1420 1 rps 1052 1385 1052 1455 1 rps 1038 1428 1066 1428 1 rps 1038 1498 1066 1498 1 rps 1017 1449 1017 1477 1 rps 1087 1449 1087 1477 1 rps 1017 1463 1087 1463 1 rps 1052 1428 1052 1498 1 rps 1038 1458 1066 1458 1 rps 1038 1528 1066 1528 1 rps 1017 1479 1017 1507 1 rps 1087 1479 1087 1507 1 rps 1017 1493 1087 1493 1 rps 1052 1458 1052 1528 1 rps 1038 1447 1066 1447 1 rps 1038 1517 1066 1517 1 rps 1017 1468 1017 1496 1 rps 1087 1468 1087 1496 1 rps 1017 1482 1087 1482 1 rps 1052 1447 1052 1517 1 rps 1038 1325 1066 1325 1 rps 1038 1395 1066 1395 1 rps 1017 1346 1017 1374 1 rps 1087 1346 1087 1374 1 rps 1017 1360 1087 1360 1 rps 1052 1325 1052 1395 1 rps 1611 1781 1639 1781 1 rps 1611 1851 1639 1851 1 rps 1590 1802 1590 1830 1 rps 1660 1802 1660 1830 1 rps 1590 1816 1660 1816 1 rps 1625 1781 1625 1851 1 rps 1611 1747 1639 1747 1 rps 1611 1817 1639 1817 1 rps 1590 1768 1590 1796 1 rps 1660 1768 1660 1796 1 rps 1590 1782 1660 1782 1 rps 1625 1747 1625 1817 1 rps 2184 2018 2212 2018 1 rps 2184 2088 2212 2088 1 rps 2163 2039 2163 2067 1 rps 2233 2039 2233 2067 1 rps 2163 2053 2233 2053 1 rps 2198 2018 2198 2088 1 rps 3330 2179 3358 2179 1 rps 3330 2249 3358 2249 1 rps 3309 2200 3309 2228 1 rps 3379 2200 3379 2228 1 rps 3309 2214 3379 2214 1 rps 3344 2179 3344 2249 1 rps 3330 2284 3358 2284 1 rps 3330 2354 3358 2354 1 rps 3309 2305 3309 2333 1 rps 3379 2305 3379 2333 1 rps 3309 2319 3379 2319 1 rps 3344 2284 3344 2354 1 rps 2099 932 2127 932 1 rps 2099 1002 2127 1002 1 rps 2078 953 2078 981 1 rps 2148 953 2148 981 1 rps 2078 967 2148 967 1 rps 2113 932 2113 1002 1 rps 537 708 587 758 537 808 487 758 3 rcs 537 710 587 760 537 810 487 760 3 rcs 537 708 587 758 537 808 487 758 3 rcs 537 684 587 734 537 784 487 734 3 rcs 2113 605 2163 655 2113 705 2063 655 3 rcs 537 739 594 843 652 939 709 1027 766 1109 824 1184 881 1254 938 1319 996 1379 1053 1435 1110 1487 1168 1535 1225 1580 1282 1622 1339 1662 1397 1699 1454 1734 1511 1767 1569 1798 1626 1827 1683 1855 1741 1881 1798 1906 1855 1930 1913 1953 1970 1975 2027 1996 2085 2016 2142 2035 2199 2054 2257 2072 2314 2090 2371 2107 2429 2124 2486 2140 2543 2156 2601 2171 2658 2186 2715 2201 2772 2216 2830 2230 2887 2244 2944 2258 3002 2272 3059 2285 3116 2299 3174 2312 3231 2325 3288 2338 3346 2351 3403 2364 50 rps 1804 154 moveto (dose) show /Helvetica axumfindfont 75 scalefont setfont 0 1601 moveto 90 rotate ( ) show -90 rotate /Helvetica axumfindfont 150 scalefont setfont 35 2260 moveto (photon) show 35 2083 moveto (counts) show 2268 934 moveto (additive dose) show 2268 777 moveto (regeneration) show 2268 634 moveto (modern) show grestore showpage %Trailer %EOF .+ 1This EPS image does not contain a screen preview.*0It will print correctly to a PostScript printer.*File Name : CH-36FIT.EPS*Title : Axum PostScript file*Creator : TriMetrix, Inc.* Pages : 1x>:~@1$ ,, S&WordMicrosoft Word&Word Z=  2 @@$Use Word 6.0c or later to 2 @$view Macintosh picture. h h#currentpoint "h$/picTop exch def /picLeft exch def 4currentpoint /picBottom exch def /picRight exch def [ 0 0 468 360] 1 dict begin /s exch def picLeft picTop translate picRight picLeft sub s 2 get s 0 get sub div picBottom picTop sub s 1 get s 3 get sub div scale s 0 get neg s 3 get neg translate end /showpage {} def /copypage {} def %!PS-Adobe-2.0 EPSF-1.2 %%BoundingBox: 0 0 468 360 %%%%DocumentFonts: /Helvetica %%Title: Axum PostScript file %%Creator: TriMetrix, Inc. %%Pages: 1 %%EndComments % Copyright 1988-1991 by TriMetrix, Inc. All rights reserved. /downdict 4 dict def /sdown {downdict begin /thestring exch def /lineskip exch def thestring { /charcode exch def /thechar ( ) dup 0 charcode put def 0 lineskip neg rmoveto gsave thechar stringwidth pop 2 div neg 0 rmoveto thechar show grestore } forall end } def /updict 4 dict def /sup {updict begin /thestring exch def /lineskip exch def thestring { /charcode exch def /thechar ( ) dup 0 charcode put def 0 lineskip rmoveto gsave thechar stringwidth pop 2 div neg 0 rmoveto thechar show grestore } forall end } def /leftdict 4 dict def /sleft {leftdict begin /thestring exch def thestring { /charcode exch def /thechar ( ) dup 0 charcode put def gsave thechar stringwidth pop neg 0 rmoveto thechar show grestore } forall thechar stringwidth pop neg 0 rmoveto end } def /path{newpath moveto{lineto}repeat} bind def /cnp{newpath moveto{lineto}repeat closepath} bind def /clp{moveto{lineto}repeat closepath} bind def /rps{ 3 1 roll path stroke} bind def /rcs{ 3 1 roll clp stroke} bind def /setF { currentscreen 4 -2 roll pop 3 1 roll setscreen} bind def % required due to WinWord 2.0 bug: /II { } def /reencodedict 5 dict def /reencode { reencodedict begin /newencoding exch def /newfontname exch def /basefontname exch def /basefontdict basefontname findfont def /newfont basefontdict maxlength dict def basefontdict { exch dup dup /FID ne exch /Encoding ne and { exch newfont 3 1 roll put } { pop pop } ifelse } forall newfont /FontName newfontname put newfont /Encoding newencoding put newfontname newfont definefont pop end } def /axumencoding [ /.notdef % 0 /.notdef % 1 /.notdef % 2 /.notdef % 3 /.notdef % 4 /.notdef % 5 /.notdef % 6 /.notdef % 7 /.notdef % 8 /.notdef % 9 /.notdef % 10 /.notdef % 11 /.notdef % 12 /.notdef % 13 /.notdef % 14 /.notdef % 15 /.notdef % 16 /.notdef % 17 /.notdef % 18 /.notdef % 19 /.notdef % 20 /.notdef % 21 /.notdef % 22 /.notdef % 23 /.notdef % 24 /.notdef % 25 /.notdef % 26 /.notdef % 27 /.notdef % 28 /.notdef % 29 /.notdef % 30 /.notdef % 31 /space % 32 /exclam % 33 /quotedbl % 34 /numbersign % 35 /dollar % 36 /percent % 37 /ampersand % 38 /quoteright % 39 /parenleft % 40 /parenright % 41 /asterisk % 42 /plus % 43 /comma % 44 /hyphen % 45 /period % 46 /slash % 47 /zero % 48 /one % 49 /two % 50 /three % 51 /four % 52 /five % 53 /six % 54 /seven % 55 /eight % 56 /nine % 57 /colon % 58 /semicolon % 59 /less % 60 /equal % 61 /greater % 62 /question % 63 /at % 64 /A % 65 /B % 66 /C % 67 /D % 68 /E % 69 /F % 70 /G % 71 /H % 72 /I % 73 /J % 74 /K % 75 /L % 76 /M % 77 /N % 78 /O % 79 /P % 80 /Q % 81 /R % 82 /S % 83 /T % 84 /U % 85 /V % 86 /W % 87 /X % 88 /Y % 89 /Z % 90 /bracketleft % 91 /backslash % 92 /bracketright % 93 /asciicircum % 94 /underscore % 95 /quoteleft % 96 /a % 97 /b % 98 /c % 99 /d % 100 /e % 101 /f % 102 /g % 103 /h % 104 /i % 105 /j % 106 /k % 107 /l % 108 /m % 109 /n % 110 /o % 111 /p % 112 /q % 113 /r % 114 /s % 115 /t % 116 /u % 117 /v % 118 /w % 119 /x % 120 /y % 121 /z % 122 /braceleft % 123 /bar % 124 /braceright % 125 /asciitilde % 126 /.notdef % 127 /Ccedilla % 128 /udieresis % 129 /eacute % 130 /acircumflex % 131 /adieresis % 132 /agrave % 133 /aring % 134 /ccedilla % 135 /ecircumflex % 136 /edieresis % 137 /egrave % 138 /idieresis % 139 /icircumflex % 140 /igrave % 141 /Adieresis % 142 /Aring % 143 /Eacute % 144 /ae % 145 /AE % 146 /ocircumflex % 147 /odieresis % 148 /ograve % 149 /ucircumflex % 150 /ugrave % 151 /ydieresis % 152 /Odieresis % 153 /Udieresis % 154 /cent % 155 /sterling % 156 /yen % 157 /currency % 158 /florin % 159 /aacute % 160 /iacute % 161 /oacute % 162 /uacute % 163 /ntilde % 164 /Ntilde % 165 /ordfeminine % 166 /ordmasculine % 167 /questiondown % 168 /quotedblleft % 169 /quotedblright % 170 /Aacute % 171 /Acircumflex % 172 /exclamdown % 173 /Egrave % 174 /Ecircumflex % 175 /atilde % 176 /otilde % 177 /Edieresis % 178 /Igrave % 179 /oe % 180 /OE % 181 /Agrave % 182 /Atilde % 183 /Otilde % 184 /section % 185 /Iacute % 186 /Icircumflex % 187 /Idieresis % 188 /Ograve % 189 /Oacute % 190 /Ocircumflex % 191 /Ugrave % 192 /Uacute % 193 /Ucircumflex % 194 /Ydieresis % 195 /germandbls % 196 /guillemotleft % 197 /guillemotright % 198 /bullet % 199 /.notdef % 200 /.notdef % 201 /.notdef % 202 /.notdef % 203 /.notdef % 204 /.notdef % 205 /.notdef % 206 /.notdef % 207 /.notdef % 208 /.notdef % 209 /.notdef % 210 /.notdef % 211 /.notdef % 212 /.notdef % 213 /.notdef % 214 /.notdef % 215 /.notdef % 216 /.notdef % 217 /.notdef % 218 /.notdef % 219 /.notdef % 220 /.notdef % 221 /.notdef % 222 /.notdef % 223 /.notdef % 224 /.notdef % 225 /.notdef % 226 /.notdef % 227 /.notdef % 228 /.notdef % 229 /.notdef % 230 /.notdef % 231 /.notdef % 232 /.notdef % 233 /.notdef % 234 /.notdef % 235 /.notdef % 236 /.notdef % 237 /.notdef % 238 /.notdef % 239 /.notdef % 240 /.notdef % 241 /.notdef % 242 /.notdef % 243 /.notdef % 244 /.notdef % 245 /.notdef % 246 /.notdef % 247 /.notdef % 248 /.notdef % 249 /.notdef % 250 /.notdef % 251 /.notdef % 252 /.notdef % 253 /.notdef % 254 /.notdef % 255 ] def /axumfindfont { /axumfont axumencoding reencode /axumfont findfont } def /MainFont /Helvetica axumfindfont 98 scalefont def MainFont setfont 1 setlinejoin 0 setlinecap 0 setgray gsave 72 630 div dup scale 0.0 setgray [] 0 setdash 1 setlinewidth 179 537 3761 537 1 rps 179 537 3761 537 1 rps 179 537 3761 537 1 rps 179 537 3761 537 1 rps 175 3115 3765 3115 1 rps 179 538 3761 538 1 rps 179 536 3761 536 1 rps 178 536 3762 536 1 rps 178 536 3761 536 1 rps 175 3116 3765 3116 1 rps 179 539 3761 539 1 rps 179 535 3761 535 1 rps 177 535 3763 535 1 rps 177 535 3761 535 1 rps 175 3117 3765 3117 1 rps 179 540 3761 540 1 rps 179 534 3761 534 1 rps 176 534 3764 534 1 rps 176 534 3761 534 1 rps 175 3118 3765 3118 1 rps 179 541 3761 541 1 rps 179 533 3761 533 1 rps 175 533 3765 533 1 rps 175 533 3761 533 1 rps 175 3119 3765 3119 1 rps 179 537 179 573 1 rps 179 537 179 573 1 rps 179 3115 179 3079 1 rps 776 537 776 555 1 rps 776 537 776 555 1 rps 776 3115 776 3097 1 rps 1373 537 1373 573 1 rps 1373 537 1373 573 1 rps 1373 3115 1373 3079 1 rps 1970 537 1970 555 1 rps 1970 537 1970 555 1 rps 1970 3115 1970 3097 1 rps 2567 537 2567 573 1 rps 2567 537 2567 573 1 rps 2567 3115 2567 3079 1 rps 3164 537 3164 555 1 rps 3164 537 3164 555 1 rps 3164 3115 3164 3097 1 rps 3761 537 3761 573 1 rps 3761 537 3761 573 1 rps 3761 3115 3761 3079 1 rps /Palatino-Roman axumfindfont 196 scalefont setfont 48 349 moveto (-20) show 1373 349 moveto (0) show 2469 349 moveto (20) show 3663 349 moveto (40) show 1373 537 1373 3115 1 rps 1373 537 1373 3115 1 rps 179 537 179 3115 1 rps 1374 537 1374 3115 1 rps 1372 537 1372 3115 1 rps 178 536 178 3116 1 rps 1375 537 1375 3115 1 rps 1371 537 1371 3115 1 rps 177 535 177 3117 1 rps 1376 537 1376 3115 1 rps 1370 537 1370 3115 1 rps 176 534 176 3118 1 rps 1377 537 1377 3115 1 rps 1369 537 1369 3115 1 rps 175 533 175 3119 1 rps 3761 537 3761 3115 1 rps 3762 536 3762 3116 1 rps 3763 535 3763 3117 1 rps 3764 534 3764 3118 1 rps 3765 533 3765 3119 1 rps 1373 537 1409 537 1 rps 3761 537 3725 537 1 rps 179 537 215 537 1 rps 1373 1074 1391 1074 1 rps 3761 1074 3743 1074 1 rps 179 1074 197 1074 1 rps 1373 1611 1409 1611 1 rps 3761 1611 3725 1611 1 rps 179 1611 215 1611 1 rps 1373 2148 1391 2148 1 rps 3761 2148 3743 2148 1 rps 179 2148 197 2148 1 rps 1373 2685 1409 2685 1 rps 3761 2685 3725 2685 1 rps 179 2685 215 2685 1 rps 925 1544 moveto (5000) show 827 2618 moveto (10000) show 1366 899 1380 899 1394 906 1401 913 1408 927 1408 941 1401 955 1394 962 1380 969 1366 969 1352 962 1345 955 1338 941 1338 927 1345 913 1352 906 1366 899 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1366 885 1380 885 1394 892 1401 899 1408 913 1408 927 1401 941 1394 948 1380 955 1366 955 1352 948 1345 941 1338 927 1338 913 1345 899 1352 892 1366 885 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1366 963 1380 963 1394 970 1401 977 1408 991 1408 1005 1401 1019 1394 1026 1380 1033 1366 1033 1352 1026 1345 1019 1338 1005 1338 991 1345 977 1352 970 1366 963 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1366 966 1380 966 1394 973 1401 980 1408 994 1408 1008 1401 1022 1394 1029 1380 1036 1366 1036 1352 1029 1345 1022 1338 1008 1338 994 1345 980 1352 973 1366 966 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1366 928 1380 928 1394 935 1401 942 1408 956 1408 970 1401 984 1394 991 1380 998 1366 998 1352 991 1345 984 1338 970 1338 956 1345 942 1352 935 1366 928 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1366 906 1380 906 1394 913 1401 920 1408 934 1408 948 1401 962 1394 969 1380 976 1366 976 1352 969 1345 962 1338 948 1338 934 1345 920 1352 913 1366 906 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 2111 1536 2125 1536 2139 1543 2146 1550 2153 1564 2153 1578 2146 1592 2139 1599 2125 1606 2111 1606 2097 1599 2090 1592 2083 1578 2083 1564 2090 1550 2097 1543 2111 1536 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 2111 1593 2125 1593 2139 1600 2146 1607 2153 1621 2153 1635 2146 1649 2139 1656 2125 1663 2111 1663 2097 1656 2090 1649 2083 1635 2083 1621 2090 1607 2097 1600 2111 1593 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 2111 1464 2125 1464 2139 1471 2146 1478 2153 1492 2153 1506 2146 1520 2139 1527 2125 1534 2111 1534 2097 1527 2090 1520 2083 1506 2083 1492 2090 1478 2097 1471 2111 1464 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 2856 2067 2870 2067 2884 2074 2891 2081 2898 2095 2898 2109 2891 2123 2884 2130 2870 2137 2856 2137 2842 2130 2835 2123 2828 2109 2828 2095 2835 2081 2842 2074 2856 2067 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 2856 2057 2870 2057 2884 2064 2891 2071 2898 2085 2898 2099 2891 2113 2884 2120 2870 2127 2856 2127 2842 2120 2835 2113 2828 2099 2828 2085 2835 2071 2842 2064 2856 2057 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 2856 2060 2870 2060 2884 2067 2891 2074 2898 2088 2898 2102 2891 2116 2884 2123 2870 2130 2856 2130 2842 2123 2835 2116 2828 2102 2828 2088 2835 2074 2842 2067 2856 2060 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 3601 2802 3615 2802 3629 2809 3636 2816 3643 2830 3643 2844 3636 2858 3629 2865 3615 2872 3601 2872 3587 2865 3580 2858 3573 2844 3573 2830 3580 2816 3587 2809 3601 2802 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 3601 2631 3615 2631 3629 2638 3636 2645 3643 2659 3643 2673 3636 2687 3629 2694 3615 2701 3601 2701 3587 2694 3580 2687 3573 2673 3573 2659 3580 2645 3587 2638 3601 2631 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 3601 2573 3615 2573 3629 2580 3636 2587 3643 2601 3643 2615 3636 2629 3629 2636 3615 2643 3601 2643 3587 2636 3580 2629 3573 2615 3573 2601 3580 2587 3587 2580 3601 2573 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 0.0 setgray 832 537 3761 2832 1 rps /Palatino-Roman axumfindfont 98 scalefont setfont 3736 189 moveto ( ) show 0 1813 moveto 90 rotate ( ) show -90 rotate /Palatino-Roman axumfindfont 196 scalefont setfont 1373 63 moveto (laboratory dose \(Gy\)) show 413 2251 moveto (photon) show 413 2024 moveto (counts) show 404 882 moveto (intercept) show ܥhO ,eۯfffrfffvXdfO2(Z( &XVFYf2 831 858 831 619 1 rps 831 576 804 619 1 rps 804 619 857 619 1 rps 857 619 831 576 1 rps grestore showpage %Trailer %EOF .+ 1This EPS image does not contain a screen preview.*0It will print correctly to a PostScript printer.*File Name : INTCPT-A.EPS*Title : Axum PostScript file*Creator : TriMetrix, Inc.* Pages : 1 1@:~@1$ ,, S&WordMicrosoft Word&Word >  2 @@$Use Word 6.0c or later to 2 @$view Macintosh picture. h h#currentpoint "h$/picTop exch def /picLeft exch def 4currentpoint /picBottom exch def /picRight exch def [ 0 0 468 360] 1 dict begin /s exch def picLeft picTop translate picRight picLeft sub s 2 get s 0 get sub div picBottom picTop sub s 1 get s 3 get sub div scale s 0 get neg s 3 get neg translate end /showpage {} def /copypage {} def %!PS-Adobe-2.0 EPSF-1.2 %%BoundingBox: 0 0 468 360 %%%%DocumentFonts: /Helvetica %%Title: Axum PostScript file %%Creator: TriMetrix, Inc. %%Pages: 1 %%EndComments % Copyright 1988-1991 by TriMetrix, Inc. All rights reserved. /downdict 4 dict def /sdown {downdict begin /thestring exch def /lineskip exch def thestring { /charcode exch def /thechar ( ) dup 0 charcode put def 0 lineskip neg rmoveto gsave thechar stringwidth pop 2 div neg 0 rmoveto thechar show grestore } forall end } def /updict 4 dict def /sup {updict begin /thestring exch def /lineskip exch def thestring { /charcode exch def /thechar ( ) dup 0 charcode put def 0 lineskip rmoveto gsave thechar stringwidth pop 2 div neg 0 rmoveto thechar show grestore } forall end } def /leftdict 4 dict def /sleft {leftdict begin /thestring exch def thestring { /charcode exch def /thechar ( ) dup 0 charcode put def gsave thechar stringwidth pop neg 0 rmoveto thechar show grestore } forall thechar stringwidth pop neg 0 rmoveto end } def /path{newpath moveto{lineto}repeat} bind def /cnp{newpath moveto{lineto}repeat closepath} bind def /clp{moveto{lineto}repeat closepath} bind def /rps{ 3 1 roll path stroke} bind def /rcs{ 3 1 roll clp stroke} bind def /setF { currentscreen 4 -2 roll pop 3 1 roll setscreen} bind def % required due to WinWord 2.0 bug: /II { } def /reencodedict 5 dict def /reencode { reencodedict begin /newencoding exch def /newfontname exch def /basefontname exch def /basefontdict basefontname findfont def /newfont basefontdict maxlength dict def basefontdict { exch dup dup /FID ne exch /Encoding ne and { exch newfont 3 1 roll put } { pop pop } ifelse } forall newfont /FontName newfontname put newfont /Encoding newencoding put newfontname newfont definefont pop end } def /axumencoding [ /.notdef % 0 /.notdef % 1 /.notdef % 2 /.notdef % 3 /.notdef % 4 /.notdef % 5 /.notdef % 6 /.notdef % 7 /.notdef % 8 /.notdef % 9 /.notdef % 10 /.notdef % 11 /.notdef % 12 /.notdef % 13 /.notdef % 14 /.notdef % 15 /.notdef % 16 /.notdef % 17 /.notdef % 18 /.notdef % 19 /.notdef % 20 /.notdef % 21 /.notdef % 22 /.notdef % 23 /.notdef % 24 /.notdef % 25 /.notdef % 26 /.notdef % 27 /.notdef % 28 /.notdef % 29 /.notdef % 30 /.notdef % 31 /space % 32 /exclam % 33 /quotedbl % 34 /numbersign % 35 /dollar % 36 /percent % 37 /ampersand % 38 /quoteright % 39 /parenleft % 40 /parenright % 41 /asterisk % 42 /plus % 43 /comma % 44 /hyphen % 45 /period % 46 /slash % 47 /zero % 48 /one % 49 /two % 50 /three % 51 /four % 52 /five % 53 /six % 54 /seven % 55 /eight % 56 /nine % 57 /colon % 58 /semicolon % 59 /less % 60 /equal % 61 /greater % 62 /question % 63 /at % 64 /A % 65 /B % 66 /C % 67 /D % 68 /E % 69 /F % 70 /G % 71 /H % 72 /I % 73 /J % 74 /K % 75 /L % 76 /M % 77 /N % 78 /O % 79 /P % 80 /Q % 81 /R % 82 /S % 83 /T % 84 /U % 85 /V % 86 /W % 87 /X % 88 /Y % 89 /Z % 90 /bracketleft % 91 /backslash % 92 /bracketright % 93 /asciicircum % 94 /underscore % 95 /quoteleft % 96 /a % 97 /b % 98 /c % 99 /d % 100 /e % 101 /f % 102 /g % 103 /h % 104 /i % 105 /j % 106 /k % 107 /l % 108 /m % 109 /n % 110 /o % 111 /p % 112 /q % 113 /r % 114 /s % 115 /t % 116 /u % 117 /v % 118 /w % 119 /x % 120 /y % 121 /z % 122 /braceleft % 123 /bar % 124 /braceright % 125 /asciitilde % 126 /.notdef % 127 /Ccedilla % 128 /udieresis % 129 /eacute % 130 /acircumflex % 131 /adieresis % 132 /agrave % 133 /aring % 134 /ccedilla % 135 /ecircumflex % 136 /edieresis % 137 /egrave % 138 /idieresis % 139 /icircumflex % 140 /igrave % 141 /Adieresis % 142 /Aring % 143 /Eacute % 144 /ae % 145 /AE % 146 /ocircumflex % 147 /odieresis % 148 /ograve % 149 /ucircumflex % 150 /ugrave % 151 /ydieresis % 152 /Odieresis % 153 /Udieresis % 154 /cent % 155 /sterling % 156 /yen % 157 /currency % 158 /florin % 159 /aacute % 160 /iacute % 161 /oacute % 162 /uacute % 163 /ntilde % 164 /Ntilde % 165 /ordfeminine % 166 /ordmasculine % 167 /questiondown % 168 /quotedblleft % 169 /quotedblright % 170 /Aacute % 171 /Acircumflex % 172 /exclamdown % 173 /Egrave % 174 /Ecircumflex % 175 /atilde % 176 /otilde % 177 /Edieresis % 178 /Igrave % 179 /oe % 180 /OE % 181 /Agrave % 182 /Atilde % 183 /Otilde % 184 /section % 185 /Iacute % 186 /Icircumflex % 187 /Idieresis % 188 /Ograve % 189 /Oacute % 190 /Ocircumflex % 191 /Ugrave % 192 /Uacute % 193 /Ucircumflex % 194 /Ydieresis % 195 /germandbls % 196 /guillemotleft % 197 /guillemotright % 198 /bullet % 199 /.notdef % 200 /.notdef % 201 /.notdef % 202 /.notdef % 203 /.notdef % 204 /.notdef % 205 /.notdef % 206 /.notdef % 207 /.notdef % 208 /.notdef % 209 /.notdef % 210 /.notdef % 211 /.notdef % 212 /.notdef % 213 /.notdef % 214 /.notdef % 215 /.notdef % 216 /.notdef % 217 /.notdef % 218 /.notdef % 219 /.notdef % 220 /.notdef % 221 /.notdef % 222 /.notdef % 223 /.notdef % 224 /.notdef % 225 /.notdef % 226 /.notdef % 227 /.notdef % 228 /.notdef % 229 /.notdef % 230 /.notdef % 231 /.notdef % 232 /.notdef % 233 /.notdef % 234 /.notdef % 235 /.notdef % 236 /.notdef % 237 /.notdef % 238 /.notdef % 239 /.notdef % 240 /.notdef % 241 /.notdef % 242 /.notdef % 243 /.notdef % 244 /.notdef % 245 /.notdef % 246 /.notdef % 247 /.notdef % 248 /.notdef % 249 /.notdef % 250 /.notdef % 251 /.notdef % 252 /.notdef % 253 /.notdef % 254 /.notdef % 255 ] def /axumfindfont { /axumfont axumencoding reencode /axumfont findfont } def /MainFont /Helvetica axumfindfont 98 scalefont def MainFont setfont 1 setlinejoin 0 setlinecap 0 setgray gfsave 72 630 div dup scale 0.0 setgray [] 0 setdash 1 setlinewidth 179 537 3761 537 1 rps 179 537 3761 537 1 rps 179 537 3761 537 1 rps 179 537 3761 537 1 rps 175 3115 3765 3115 1 rps 179 538 3761 538 1 rps 179 536 3761 536 1 rps 178 536 3762 536 1 rps 178 536 3761 536 1 rps 175 3116 3765 3116 1 rps 179 539 3761 539 1 rps 179 535 3761 535 1 rps 177 535 3763 535 1 rps 177 535 3761 535 1 rps 175 3117 3765 3117 1 rps 179 540 3761 540 1 rps 179 534 3761 534 1 rps 176 534 3764 534 1 rps 176 534 3761 534 1 rps 175 3118 3765 3118 1 rps 179 541 3761 541 1 rps 179 533 3761 533 1 rps 175 533 3765 533 1 rps 175 533 3761 533 1 rps 175 3119 3765 3119 1 rps 179 537 179 573 1 rps 179 537 179 573 1 rps 179 3115 179 3079 1 rps 776 537 776 555 1 rps 776 537 776 555 1 rps 776 3115 776 3097 1 rps 1373 537 1373 573 1 rps 1373 537 1373 573 1 rps 1373 3115 1373 3079 1 rps 1970 537 1970 555 1 rps 1970 537 1970 555 1 rps 1970 3115 1970 3097 1 rps 2567 537 2567 573 1 rps 2567 537 2567 573 1 rps 2567 3115 2567 3079 1 rps 3164 537 3164 555 1 rps 3164 537 3164 555 1 rps 3164 3115 3164 3097 1 rps 3761 537 3761 573 1 rps 3761 537 3761 573 1 rps 3761 3115 3761 3079 1 rps /Palatino-Roman axumfindfont 196 scalefont setfont 48 349 moveto (-20) show 1373 349 moveto (0) show 2469 349 moveto (20) show 3663 349 moveto (40) show 1373 537 1373 3115 1 rps 1373 537 1373 3115 1 rps 179 537 179 3115 1 rps 1374 537 1374 3115 1 rps 1372 537 1372 3115 1 rps 178 536 178 3116 1 rps 1375 537 1375 3115 1 rps 1371 537 1371 3115 1 rps 177 535 177 3117 1 rps 1376 537 1376 3115 1 rps 1370 537 1370 3115 1 rps 176 534 176 3118 1 rps 1377 537 1377 3115 1 rps 1369 537 1369 3115 1 rps 175 533 175 3119 1 rps 3761 537 3761 3115 1 rps 3762 536 3762 3116 1 rps 3763 535 3763 3117 1 rps 3764 534 3764 3118 1 rps 3765 533 3765 3119 1 rps 1373 537 1409 537 1 rps 3761 537 3725 537 1 rps 179 537 215 537 1 rps 1373 1074 1391 1074 1 rps 3761 1074 3743 1074 1 rps 179 1074 197 1074 1 rps 1373 1611 1409 1611 1 rps 3761 1611 3725 1611 1 rps 179 1611 215 1611 1 rps 1373 2148 1391 2148 1 rps 3761 2148 3743 2148 1 rps 179 2148 197 2148 1 rps 1373 2685 1409 2685 1 rps 3761 2685 3725 2685 1 rps 179 2685 215 2685 1 rps 925 1544 moveto (5000) show 827 2618 moveto (10000) show 1366 899 1380 899 1394 906 1401 913 1408 927 1408 941 1401 955 1394 962 1380 969 1366 969 1352 962 1345 955 1338 941 1338 927 1345 913 1352 906 1366 899 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1366 885 1380 885 1394 892 1401 899 1408 913 1408 927 1401 941 1394 948 1380 955 1366 955 1352 948 1345 941 1338 927 1338 913 1345 899 1352 892 1366 885 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1366 963 1380 963 1394 970 1401 977 1408 991 1408 1005 1401 1019 1394 1026 1380 1033 1366 1033 1352 1026 1345 1019 1338 1005 1338 991 1345 977 1352 970 1366 963 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1366 966 1380 966 1394 973 1401 980 1408 994 1408 1008 1401 1022 1394 1029 1380 1036 1366 1036 1352 1029 1345 1022 1338 1008 1338 994 1345 980 1352 973 1366 966 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1366 928 1380 928 1394 935 1401 942 1408 956 1408 970 1401 984 1394 991 1380 998 1366 998 1352 991 1345 984 1338 970 1338 956 1345 942 1352 935 1366 928 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1366 906 1380 906 1394 913 1401 920 1408 934 1408 948 1401 962 1394 969 1380 976 1366 976 1352 969 1345 962 1338 948 1338 934 1345 920 1352 913 1366 906 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 2111 1536 2125 1536 2139 1543 2146 1550 2153 1564 2153 1578 2146 1592 2139 1599 2125 1606 2111 1606 2097 1599 2090 1592 2083 1578 2083 1564 2090 1550 2097 1543 2111 1536 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 2111 1593 2125 1593 2139 1600 2146 1607 2153 1621 2153 1635 2146 1649 2139 1656 2125 1663 2111 1663 2097 1656 2090 1649 2083 1635 2083 1621 2090 1607 2097 1600 2111 1593 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 2111 1464 2125 1464 2139 1471 2146 1478 2153 1492 2153 1506 2146 1520 2139 1527 2125 1534 2111 1534 2097 1527 2090 1520 2083 1506 2083 1492 2090 1478 2097 1471 2111 1464 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 2856 2067 2870 2067 2884 2074 2891 2081 2898 2095 2898 2109 2891 2123 2884 2130 2870 2137 2856 2137 2842 2130 2835 2123 2828 2109 2828 2095 2835 2081 2842 2074 2856 2067 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 2856 2057 2870 2057 2884 2064 2891 2071 2898 2085 2898 2099 2891 2113 2884 2120 2870 2127 2856 2127 2842 2120 2835 2113 2828 2099 2828 2085 2835 2071 2842 2064 2856 2057 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 2856 2060 2870 2060 2884 2067 2891 2074 2898 2088 2898 2102 2891 2116 2884 2123 2870 2130 2856 2130 2842 2123 2835 2116 2828 2102 2828 2088 2835 2074 2842 2067 2856 2060 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 3601 2802 3615 2802 3629 2809 3636 2816 3643 2830 3643 2844 3636 2858 3629 2865 3615 2872 3601 2872 3587 2865 3580 2858 3573 2844 3573 2830 3580 2816 3587 2809 3601 2802 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 3601 2631 3615 2631 3629 2638 3636 2645 3643 2659 3643 2673 3636 2687 3629 2694 3615 2701 3601 2701 3587 2694 3580 2687 3573 2673 3573 2659 3580 2645 3587 2638 3601 2631 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 3601 2573 3615 2573 3629 2580 3636 2587 3643 2601 3643 2615 3636 2629 3629 2636 3615 2643 3601 2643 3587 2636 3580 2629 3573 2615 3573 2601 3580 2587 3587 2580 3601 2573 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 0.0 setgray 1373 693 1423 743 1373 793 1323 743 3 rcs 1373 692 1423 742 1373 792 1323 742 3 rcs 1373 675 1423 725 1373 775 1323 725 3 rcs 1373 675 1423 725 1373 775 1323 725 3 rcs 2118 747 2168 797 2118 847 2068 797 3 rcs 2118 734 2168 784 2118 834 2068 784 3 rcs 3608 788 3658 838 3608 888 3558 838 3 rcs 3608 825 3658 875 3608 925 3558 875 3 rcs 832 537 3761 2832 1 rps 776 702 3761 872 1 rps /Palatino-Roman axumfindfont 98 scalefont setfont 3736 189 moveto ( ) show 0 1813 moveto 90 rotate ( ) show -90 rotate /Palatino-Roman axumfindfont 196 scalefont setfont 1373 63 moveto (laboratory dose \(Gy\)) show 413 2251 moveto (photon) show 413 2024 moveto (counts) show 404 1046 moveto (intercept) show 1059 1009 1059 838 1 rps 1059 795 1032 838 1 rps 1032 838 1085 838 1 rps 1085 838 1059 795 1 rps grestore showpage %Trailer %EOF .+ 1This EPS image does not contain a screen preview.*0It will print correctly to a PostScript printer.*File Name : INTCPT-B.EPS*Title : Axum PostScript file*Creator : TriMetrix, Inc.* Pages : 13 1y?:~@1$ ,, S&WordMicrosoft Word&Word 5>  2 @@$Use Word 6.0c or later to 2 @$view Macintosh picture. h h#currentpoint "h$/picTop exch def /picLeft exch def 4currentpoint /picBottom exch def /picRight exch def [ 0 0 468 360] 1 dict begin /s exch def picLeft picTop translate picRight picLeft sub s 2 get s 0 get sub div picBottom picTop sub s 1 get s 3 get sub div scale s 0 get neg s 3 get neg translate end /showpage {} def /copypage {} def %!PS-Adobe-2.0 EPSF-1.2 %%BoundingBox: 0 0 468 360 %%%%DocumentFonts: /Helvetica %%Title: Axum PostScript file %%Creator: TriMetrix, Inc. %%Pages: 1 %%EndComments % Copyright 1988-1991 by TriMetrix, Inc. All rights reserved. /downdict 4 dict def /sdown {downdict begin /thestring exch def /lineskip exch def thestring { /charcode exch def /thechar ( ) dup 0 charcode put def 0 lineskip neg rmoveto gsave thechar stringwidth pop 2 div neg 0 rmoveto thechar show grestore } forall end } def /updict 4 dict def /sup {updict begin /thestring exch def /lineskip exch def thestring { /charcode exch def /thechar ( ) dup 0 charcode put def 0 lineskip rmoveto gsave thechar stringwidth pop 2 div neg 0 rmoveto thechar show grestore } forall end } def /leftdict 4 dict def /sleft {leftdict begin /thestring exch def thestring { /charcode exch def /thechar ( ) dup 0 charcode put def gsave thechar stringwidth pop neg 0 rmoveto thechar show grestore } forall thechar stringwidth pop neg 0 rmoveto end } def /path{newpath moveto{lineto}repeat} bind def /cnp{newpath moveto{lineto}repeat closepath} bind def /clp{moveto{lineto}repeat closepath} bind def /rps{ 3 1 roll path stroke} bind def /rcs{ 3 1 roll clp stroke} bind def /setF { currentscreen 4 -2 roll pop 3 1 roll setscreen} bind def % required due to WinWord 2.0 bug: /II { } def /reencodedict 5 dict def /reencode { reencodedict begin /newencoding exch def /newfontname exch def /basefontname exch def /basefontdict basefontname findfont def /newfont basefontdict maxlength dict def basefontdict { exch dup dup /FID ne exch /Encoding ne and { exch newfont 3 1 roll put } { pop pop } ifelse } forall newfont /FontName newfontname put newfont /Encoding newencoding put newfontname newfont definefont pop end } def /axumencoding [ /.notdef % 0 /.notdef % 1 /.notdef % 2 /.notdef % 3 /.notdef % 4 /.notdef % 5 /.notdef % 6 /.notdef % 7 /.notdef % 8 /.notdef % 9 /.notdef % 10 /.notdef % 11 /.notdef % 12 /.notdef % 13 /.notdef % 14 /.notdef % 15 /.notdef % 16 /.notdef % 17 /.notdef % 18 /.notdef % 19 /.notdef % 20 /.notdef % 21 /.notdef % 22 /.notdef % 23 /.notdef % 24 /.notdef % 25 /.notdef % 26 /.notdef % 27 /.notdef % 28 /.notdef % 29 /.notdef % 30 /.notdef % 31 /space % 32 /exclam % 33 /quotedbl % 34 /numbersign % 35 /dollar % 36 /percent % 37 /ampersand % 38 /quoteright % 39 /parenleft % 40 /parenright % 41 /asterisk % 42 /plus % 43 /comma % 44 /hyphen % 45 /period % 46 /slash % 47 /zero % 48 /one % 49 /two % 50 /three % 51 /four % 52 /five % 53 /six % 54 /seven % 55 /eight % 56 /nine % 57 /colon % 58 /semicolon % 59 /less % 60 /equal % 61 /greater % 62 /question % 63 /at % 64 /A % 65 /B % 66 /C % 67 /D % 68 /E % 69 /F % 70 /G % 71 /H % 72 /I % 73 /J % 74 /K % 75 /L % 76 /M % 77 /N % 78 /O % 79 /P % 80 /Q % 81 /R % 82 /S % 83 /T % 84 /U % 85 /V % 86 /W % 87 /X % 88 /Y % 89 /Z % 90 /bracketleft % 91 /backslash % 92 /bracketright % 93 /asciicircum % 94 /underscore % 95 /quoteleft % 96 /a % 97 /b % 98 /c % 99 /d % 100 /e % 101 /f % 102 /g % 103 /h % 104 /i % 105 /j % 106 /k % 107 /l % 108 /m % 109 /n % 110 /o % 111 /p % 112 /q % 113 /r % 114 /s % 115 /t % 116 /u % 117 /v % 118 /w % 119 /x % 120 /y % 121 /z % 122 /braceleft % 123 /bar % 124 /braceright % 125 /asciitilde % 126 /.notdef % 127 /Ccedilla % 128 /udieresis % 129 /eacute % 130 /acircumflex % 131 /adieresis % 132 /agrave % 133 /aring % 134 /ccedilla % 135 /ecircumflex % 136 /edieresis % 137 /egrave % 138 /idieresis % 139 /icircumflex % 140 /igrave % 141 /Adieresis % 142 /Aring % 143 /Eacute % 144 /ae % 145 /AE % 146 /ocircumflex % 147 /odieresis % 148 /ograve % 149 /ucircumflex % 150 /ugrave % 151 /ydieresis % 152 /Odieresis % 153 /Udieresis % 154 /cent % 155 /sterling % 156 /yen % 157 /currency % 158 /florin % 159 /aacute % 160 /iacute % 161 /oacute % 162 /uacute % 163 /ntilde % 164 /Ntilde % 165 /ordfeminine % 166 /ordmasculine % 167 /questiondown % 168 /quotedblleft % 169 /quotedblright % 170 /Aacute % 171 /Acircumflex % 172 /exclamdown % 173 /Egrave % 174 /Ecircumflex % 175 /atilde % 176 /otilde % 177 /Edieresis % 178 /Igrave % 179 /oe % 180 /OE % 181 /Agrave % 182 /Atilde % 183 /Otilde % 184 /section % 185 /Iacute % 186 /Icircumflex % 187 /Idieresis % 188 /Ograve % 189 /Oacute % 190 /Ocircumflex % 191 /Ugrave % 192 /Uacute % 193 /Ucircumflex % 194 /Ydieresis % 195 /germandbls % 196 /guillemotleft % 197 /guillemotright % 198 /bullet % 199 /.notdef % 200 /.notdef % 201 /.notdef % 202 /.notdef % 203 /.notdef % 204 /.notdef % 205 /.notdef % 206 /.notdef % 207 /.notdef % 208 /.notdef % 209 /.notdef % 210 /.notdef % 211 /.notdef % 212 /.notdef % 213 /.notdef % 214 /.notdef % 215 /.notdef % 216 /.notdef % 217 /.notdef % 218 /.notdef % 219 /.notdef % 220 /.notdef % 221 /.notdef % 222 /.notdef % 223 /.notdef % 224 /.notdef % 225 /.notdef % 226 /.notdef % 227 /.notdef % 228 /.notdef % 229 /.notdef % 230 /.notdef % 231 /.notdef % 232 /.notdef % 233 /.notdef % 234 /.notdef % 235 /.notdef % 236 /.notdef % 237 /.notdef % 238 /.notdef % 239 /.notdef % 240 /.notdef % 241 /.notdef % 242 /.notdef % 243 /.notdef % 244 /.notdef % 245 /.notdef % 246 /.notdef % 247 /.notdef % 248 /.notdef % 249 /.notdef % 250 /.notdef % 251 /.notdef % 252 /.notdef % 253 /.notdef % 254 /.notdef % 255 ] def /axumfindfont { /axumfont axumencoding reencode /axumfont findfont } def /MainFont /Helvetica axumfindfont 98 scalefont def MainFont setfont 1 setlinejoin 0 setlinecap 0 setgray gsave 72 630 div dup scale 0.0 setgray [] 0 setdash 1 setlinewidth 179 537 3761 537 1 rps 179 537 3761 537 1 rps 179 537 3761 537 1 rps 179 537 3761 537 1 rps 175 3115 3765 3115 1 rps 179 538 3761 538 1 rps 179 536 3761 536 1 rps 178 536 3762 536 1 rps 178 536 3761 536 1 rps 175 3116 3765 3116 1 rps 179 539 3761 539 1 rps 179 535 3761 535 1 rps 177 535 3763 535 1 rps 177 535 3761 535 1 rps 175 3117 3765 3117 1 rps 179 540 3761 540 1 rps 179 534 3761 534 1 rps 176 534 3764 534 1 rps 176 534 3761 534 1 rps 175 3118 3765 3118 1 rps 179 541 3761 541 1 rps 179 533 3761 533 1 rps 175 533 3765 533 1 rps 175 533 3761 533 1 rps 175 3119 3765 3119 1 rps 179 537 179 573 1 rps 179 537 179 573 1 rps 179 3115 179 3079 1 rps 776 537 776 555 1 rps 776 537 776 555 1 rps 776 3115 776 3097 1 rps 1373 537 1373 573 1 rps 1373 537 1373 573 1 rps 1373 3115 1373 3079 1 rps 1970 537 1970 555 1 rps 1970 537 1970 555 1 rps 1970 3115 1970 3097 1 rps 2567 537 2567 573 1 rps 2567 537 2567 573 1 rps 2567 3115 2567 3079 1 rps 3164 537 3164 555 1 rps 3164 537 3164 555 1 rps 3164 3115 3164 3097 1 rps 3761 537 3761 573 1 rps 3761 537 3761 573 1 rps 3761 3115 3761 3079 1 rps /Palatino-Roman axumfindfont 196 scalefont setfont 48 349 moveto (-20) show 1373 349 moveto (0) show 2469 349 moveto (20) show 3663 349 moveto (40) show 1373 537 1373 3115 1 rps 1373 537 1373 3115 1 rps 179 537 179 3115 1 rps 1374 537 1374 3115 1 rps 1372 537 1372 3115 1 rps 178 536 178 3116 1 rps 1375 537 1375 3115 1 rps 1371 537 1371 3115 1 rps 177 535 177 3117 1 rps 1376 537 1376 3115 1 rps 1370 537 1370 3115 1 rps 176 534 176 3118 1 rps 1377 537 1377 3115 1 rps 1369 537 1369 3115 1 rps 175 533 175 3119 1 rps 3761 537 3761 3115 1 rps 3762 536 3762 3116 1 rps 3763 535 3763 3117 1 rps 3764 534 3764 3118 1 rps 3765 533 3765 3119 1 rps 1373 537 1409 537 1 rps 3761 537 3725 537 1 rps 179 537 215 537 1 rps 1373 1074 1391 1074 1 rps 3761 1074 3743 1074 1 rps 179 1074 197 1074 1 rps 1373 1611 1409 1611 1 rps 3761 1611 3725 1611 1 rps 179 1611 215 1611 1 rps 1373 2148 1391 2148 1 rps 3761 2148 3743 2148 1 rps 179 2148 197 2148 1 rps 1373 2685 1409 2685 1 rps 3761 2685 3725 2685 1 rps 179 2685 215 2685 1 rps 925 1544 moveto (5000) show 827 2618 moveto (10000) show 1366 899 1380 899 1394 906 1401 913 1408 927 1408 941 1401 955 1394 962 1380 969 1366 969 1352 962 1345 955 1338 941 1338 927 1345 913 1352 906 1366 899 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1366 885 1380 885 1394 892 1401 899 1408 913 1408 927 1401 941 1394 948 1380 955 1366 955 1352 948 1345 941 1338 927 1338 913 1345 899 1352 892 1366 885 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1366 963 1380 963 1394 970 1401 977 1408 991 1408 1005 1401 1019 1394 1026 1380 1033 1366 1033 1352 1026 1345 1019 1338 1005 1338 991 1345 977 1352 970 1366 963 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1366 966 1380 966 1394 973 1401 980 1408 994 1408 1008 1401 1022 1394 1029 1380 1036 1366 1036 1352 1029 1345 1022 1338 1008 1338 994 1345 980 1352 973 1366 966 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1366 928 1380 928 1394 935 1401 942 1408 956 1408 970 1401 984 1394 991 1380 998 1366 998 1352 991 1345 984 1338 970 1338 956 1345 942 1352 935 1366 928 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 1366 906 1380 906 1394 913 1401 920 1408 934 1408 948 1401 962 1394 969 1380 976 1366 976 1352 969 1345 962 1338 948 1338 934 1345 920 1352 913 1366 906 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 2111 1536 2125 1536 2139 1543 2146 1550 2153 1564 2153 1578 2146 1592 2139 1599 2125 1606 2111 1606 2097 1599 2090 1592 2083 1578 2083 1564 2090 1550 2097 1543 2111 1536 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 2111 1593 2125 1593 2139 1600 2146 1607 2153 1621 2153 1635 2146 1649 2139 1656 2125 1663 2111 1663 2097 1656 2090 1649 2083 1635 2083 1621 2090 1607 2097 1600 2111 1593 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 2111 1464 2125 1464 2139 1471 2146 1478 2153 1492 2153 1506 2146 1520 2139 1527 2125 1534 2111 1534 2097 1527 2090 1520 2083 1506 2083 1492 2090 1478 2097 1471 2111 1464 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 2856 2067 2870 2067 2884 2074 2891 2081 2898 2095 2898 2109 2891 2123 2884 2130 2870 2137 2856 2137 2842 2130 2835 2123 2828 2109 2828 2095 2835 2081 2842 2074 2856 2067 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 2856 2057 2870 2057 2884 2064 2891 2071 2898 2085 2898 2099 2891 2113 2884 2120 2870 2127 2856 2127 2842 2120 2835 2113 2828 2099 2828 2085 2835 2071 2842 2064 2856 2057 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 2856 2060 2870 2060 2884 2067 2891 2074 2898 2088 2898 2102 2891 2116 2884 2123 2870 2130 2856 2130 2842 2123 2835 2116 2828 2102 2828 2088 2835 2074 2842 2067 2856 2060 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 3601 2802 3615 2802 3629 2809 3636 2816 3643 2830 3643 2844 3636 2858 3629 2865 3615 2872 3601 2872 3587 2865 3580 2858 3573 2844 3573 2830 3580 2816 3587 2809 3601 2802 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 3601 2631 3615 2631 3629 2638 3636 2645 3643 2659 3643 2673 3636 2687 3629 2694 3615 2701 3601 2701 3587 2694 3580 2687 3573 2673 3573 2659 3580 2645 3587 2638 3601 2631 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 3601 2573 3615 2573 3629 2580 3636 2587 3643 2601 3643 2615 3636 2629 3629 2636 3615 2643 3601 2643 3587 2636 3580 2629 3573 2615 3573 2601 3580 2587 3587 2580 3601 2573 16 3 1 roll cnp 0.00 setgray gsave eofill grestore 0.0 setgray stroke 0.0 setgray 0.0 setgray 1373 693 1423 743 1373 793 1323 743 3 rcs 1373 692 1423 742 1373 792 1323 742 3 rcs 1373 675 1423 725 1373 775 1323 725 3 rcs 1373 675 1423 725 1373 775 1323 725 3 rcs 832 537 3761 2832 1 rps 895 734 1373 734 1 rps /Palatino-Roman axumfindfont 98 scalefont setfont 3736 189 moveto ( ) show 0 1813 moveto 90 rotate ( ) show -90 rotate /Palatino-Roman axumfindfont 196 scalefont setfont 1373 63 moveto (laboratory dose \(Gy\)) show 413 2251 moveto (photon) show 413 2024 moveto (counts) show 400 1091 moveto (intercept) show 1090 1009 1090 838 1 rps 1090 795 1063 838 1 rps 1063 838 1116 838 1 rps 1116 838 1090 795 1 rps grestore showpage %Trailer %EOF .+ 1This EPS image does not contain a screen preview.*0It will print correctly to a PostScript printer.*File Name : INTCPT-C.EPS*Title : Axum PostScript file*Creator : TriMetrix, Inc.* Pages : 1 rml:-"'/XX S&WordMicrosoft Word&Word ik  2 @@$Use Word 6.0c or later to 2 @$view Macintosh picture. L L#currentpoint "L$/picTop exch def /picLeft exch def 4currentpoint /picBottom exch def /picRight exch def %[162.4595 268.6839 494.3506 552.492] 1 dict begin /s exch def picLeft picTop translate picRight picLeft sub s 2 get s 0 get sub div picBottom picTop sub s 1 get s 3 get sub div scale s 0 get neg s 3 get neg translate end /showpage {} def /copypage {} def %!PS-Adobe-2.0 EPSF-1.2 %%Creator: FreeHand %%Title: GCSS2_DH.FH3 %%CreationDate: 1/7/98 14:21:35 %%BoundingBox:162.4595 268.6839 494.3506 552.492 %%DocumentProcSets: FreeHand_header 3 0 %%DocumentSuppliedProcSets: FreeHand_header 3 0 %%ColorUsage: Color %%DocumentFonts: Symbol %%+Symbol %%+Helvetica %%DocumentNeededFonts: Symbol %%+Symbol %%+Helvetica %%EndComments %%BeginProcSet: FreeHand_header 3 0 /FHIODict 30 dict def FHIODict begin /bdf{bind def}bind def /d{setdash}bdf /h{closepath}bdf /H{}bdf /J{setlinecap}bdf /j{setlinejoin}bdf /M{setmiterlimit}bdf /n{newpath}bdf /N{newpath}bdf /q{gsave}bdf /Q{grestore}bdf /w{setlinewidth}bdf /u{}bdf /U{}bdf /OB{pop pop pop pop pop pop}bind def /SB{pop pop pop pop}bind def /sepdef{ dup where not { FreeHandSepDict } if 3 1 roll exch put }bdf /` { false setoverprint end%. FreeHandDict /-save0- save def pop pop pop pop pop concat userdict begin /showpage {} def 0 setgray 0 setlinecap 1 setlinewidth 0 setlinejoin 10 setmiterlimit [] 0 setdash newpath /languagelevel where {pop languagelevel 1 ne{false setstrokeadjust}if}if } bdf /~ { end -save0- restore FreeHandDict begin }bdf /FreeHandDict 223 dict def FreeHandDict begin /currentpacking where{pop true setpacking}if /xdf{exch def}bdf /ndf{1 index where{pop pop pop}{dup xcheck{bind}if def}ifelse}bdf /min{2 copy gt{exch}if pop}bdf /max{2 copy lt{exch}if pop}bdf /isLino statusdict /product get (Lino) anchorsearch{pop pop true}{pop false}ifelse def /dr{transform .25 sub round .25 add exch .25 sub round .25 add exch itransform}bdf /C{dr curveto}bdf /L{dr lineto}bdf /m{dr moveto}bdf /printerRes gsave matrix defaultmatrix setmatrix 72 72 dtransform abs exch abs max grestore def /maxsteps 256 def /calcgraysteps { currentscreen pop exch printerRes exch div exch 2 copy sin mul round dup mul 3 1 roll cos mul round dup mul add 1 add dup maxsteps gt {pop maxsteps} if } bdf /bottom -0 def /delta -0 def /frac -0 def /left -0 def /numsteps -0 def /numsteps1 -0 def /radius -0 def /right -0 def /top -0 def /xt -0 def /yt -0 def /df currentflat def /tempstr 1 string def /clipflatness currentflat def /inverted? 0 currenttransfer exec .5 ge def /level2 /languagelevel where {pop languagelevel 1 ne}{false}ifelse def /colorexists level2 { statusdict/processcolors known {statusdict/processcolors get exec}{1}ifelse 4 eq def } {systemdict/setcmykcolor known def}ifelse /tc1 [0 0 0 1] def /tc2 [0 0 0 1] def /fc [0 0 0 1] def /sc [0 0 0 1] def /concatprocs{ /packedarray where {pop dup type /packedarraytype eq 2 index type /packedarraytype eq or}{false}ifelse { /proc2 exch cvlit def /proc1 exch cvlit def proc1 aload pop proc2 aload pop proc1 length proc2 length add packedarray cvx } { /proc2 exch cvlit def /proc1 exch cvlit def /newproc proc1 length proc2 length add array def newproc 0 proc1 putinterval newproc proc1 length proc2 putinterval newproc cvx }ifelse }bdf /storerect{/top xdf/right xdf/bottom xdf/left xdf}bdf /rectpath{newpath left bottom m left top L right top L right bottom L closepath}bdf /i{dup 0 eq {pop df dup} {dup} ifelse /clipflatness xdf setflat }bdf version cvr 38.0 le {/setrgbcolor{ currenttransfer exec 3 1 roll currenttransfer exec 3 1 roll currenttransfer exec 3 1 roll setrgbcolor}bdf}if /gettint{0 get}bdf /puttint{0 exch put}bdf /vms {/vmsv save def} bdf /vmr {vmsv restore} bdf /vmrs{vmsv restore /vmsv save def}bdf /eomode{ {/filler /eofill load def /clipper /eoclip load def} {/filler /fill load def /clipper /clip load def} ifelse }bdf /CD{/NF exch def{exch dup/FID ne 1 index/UniqueID ne and{exch NF 3 1 roll put} {pop pop}ifelse}forall NF}bdf /MN{1 index length/Len exch def dup length Len add string dup Len 4 -1 roll putinterval dup 0 4 -1 roll putinterval}bdf /RC{4 -1 roll /ourvec xdf 256 string cvs(|______)anchorsearch {1 index MN cvn/NewN exch def cvn findfont dup maxlength dict CD dup/FontName NewN put dup /Encoding ourvec put NewN exch definefont pop}{pop}ifelse}bdf /RF{dup FontDirectory exch known{pop 3 -1 roll pop}{RC}ifelse}bdf /FF{dup 256 string cvs(|______)exch MN cvn dup FontDirectory exch known {exch pop findfont 3 -1 roll pop}{pop dup findfont dup maxlength dict CD dup dup /Encoding exch /Encoding get 256 array copy 7 -1 roll {3 -1 roll dup 4 -2 roll put}forall put definefont}ifelse}bdf userdict begin /BDFontDict 20 dict def end BDFontDict begin /bu{}def /bn{}def /setTxMode{av 70 ge{pop}if pop}def /gm{m}def /show{pop}def /gr{pop}def /fnt{pop pop pop}def /fs{pop}def /fz{pop}def /lin{pop pop}def end /AVec 256 array def AVec 0 /Helvetica findfont /Encoding get 0 256 getinterval putinterval /ANSIPatch[ 16#0/grave 16#1/acute 16#2/circumflex 16#3/tilde 16#4/macron 16#5/breve 16#6/dotaccent 16#7/dieresis 16#8/ring 16#9/cedilla 16#A/hungarumlaut 16#B/ogonek 16#C/caron 16#D/dotlessi 16#27/quotesingle 16#60/grave 16#7C/bar 16#82/quotesinglbase 16#83/florin 16#84/quotedblbase 16#85 /ellipsis 16#86/dagger 16#87/daggerdbl 16#89/perthousand 16#8A/Scaron 16#8B/guilsinglleft 16#8C/OE 16#91/quoteleft 16#92/quoteright 16#93 /quotedblleft 16#94/quotedblright 16#95/bullet 16#96/endash 16#97/emdash 16#99/trademark 16#9A/scaron 16#9B/guilsinglright 16#9C/oe 16#9F/Ydieresis 16#A0/space 16#A4/currency 16#A6/brokenbar 16#A7/section 16#A8/dieresis 16#A9/copyright 16#AA/ordfeminine 16#AB/guillemotleft 16#AC/logicalnot 16#AD/hyphen 16#AE/registered 16#AF/macron 16#B0/degree 16#B1/plusminus 16#B2/twosuperior 16#B3/threesuperior 16#B4/acute 16#B5/mu 16#B6/paragraph 16#B7/periodcentered 16#B8/cedilla 16#B9/onesuperior 16#BA/ordmasculine 16#BB/guillemotright 16#BC/onequarter 16#BD/onehalf 16#BE/threequarters 16#BF/questiondown 16#C0/Agrave 16#C1/Aacute 16#C2/Acircumflex 16#C3/Atilde 16#C4/Adieresis 16#C5/Aring 16#C6/AE 16#C7/Ccedilla 16#C8/Egrave 16#C9/Eacute 16#CA/Ecircumflex 16#CB/Edieresis 16#CC/Igrave 16#CD/Iacute 16#CE/Icircumflex 16#CF/Idieresis 16#D0/Eth 16#D1/Ntilde 16#D2/Ograve 16#D3/Oacute 16#D4/Ocircumflex 16#D5/Otilde 16#D6/Odieresis 16#D7/multiply 16#D8/Oslash 16#D9/Ugrave 16#DA/Uacute 16#DB/Ucircumflex 16#DC/Udieresis 16#DD/Yacute 16#DE/Thorn 16#DF/germandbls 16#E0/agrave 16#E1/aacute 16#E2/acircumflex 16#E3/atilde 16#E4/adieresis 16#E5/aring 16#E6/ae 16#E7/ccedilla 16#E8/egrave 16#E9/eacute 16#EA/ecircumflex 16#EB/edieresis 16#EC/igrave 16#ED/iacute 16#EE/icircumflex 16#EF/idieresis 16#F0/eth 16#F1/ntilde 16#F2/ograve 16#F3/oacute 16#F4/ocircumflex 16#F5/otilde 16#F6/odieresis 16#F7/divide 16#F8/oslash 16#F9/ugrave 16#FA/uacute 16#FB/ucircumflex 16#FC/udieresis 16#FD/yacute 16#FE/thorn 16#FF/ydieresis ] def 127 1 159 { AVec exch/bullet put } for ANSIPatch aload pop ANSIPatch length 2 idiv{AVec 3 1 roll put}repeat /DoPatch { dup /CharStrings known { setfont 0 1 255 { dup currentfont /Encoding get exch get currentfont /CharStrings get exch known {pop} {currentfont /Encoding get exch /bullet put} ifelse } for } {pop} ifelse } def /fps{ currentflat exch dup 0 le{pop 1}if { dup setflat 3 index stopped {1.3 mul dup 3 index gt{pop setflat pop pop stop}if} {exit} ifelse }loop pop setflat pop pop }bdf /fp{100 currentflat fps}bdf /clipper{clip}bdf /W{/clipper load 100 clipflatness fps}bdf end%. FreeHandDict end%. FHIODict %%EndProcSet %%EndProlog %%BeginSetup FHIODict begin FreeHandDict begin 162.4595 268.6839 494.3506 552.492 storerect rectpath clip newpath /onlyk{false}ndf /ccmyk{dup 5 -1 roll sub 0 max exch}ndf /setcmykcolor{1 exch sub ccmyk ccmyk ccmyk pop setrgbcolor}ndf /setcmykcoloroverprint{4{dup -1 eq{pop 0}if 4 1 roll}repeat setcmykcolor}ndf /findcmykcustomcolor{5 /packedarray where{pop packedarray}{array astore readonly}ifelse}ndf /setcustomcolor{exch aload pop pop 4{4 index mul 4 1 roll}repeat setcmykcolor pop}ndf /setseparationgray{1 exch sub dup dup dup setcmykcolor}ndf /setoverprint{pop}ndf /currentoverprint false ndf /colorimage{pop pop [5 -1 roll/exec cvx 6 -1 roll/exec cvx 7 -1 roll/exec cvx 8 -1 roll/exec cvx /cmykbufs2gray cvx]cvx image} %. version 47.1 on Linotronic of Postscript defines colorimage incorrectly (rgb model only) version cvr 47.1 le isLino and{userdict begin bdf end}{ndf}ifelse /customcolorimage{ colorexists { aload pop pop 4 array astore setimagecmyk currentcolortransfer {ik mul ik sub 1 add}concatprocs 4 1 roll {iy mul iy sub 1 add}concatprocs 4 1 roll {im mul im sub 1 add}concatprocs 4 1 roll {ic mul ic sub 1 add}concatprocs 4 1 roll setcolortransfer /magentabuf 0 string def /yellowbuf 0 string def /blackbuf 0 string def {invbuf dup length magentabuf length ne {dup length dup dup /magentabuf exch string def /yellowbuf exch string def /blackbuf exch string def}if dup magentabuf copy yellowbuf copy blackbuf copy pop}concatprocs {magentabuf}{yellowbuf}{blackbuf}true 4 colorimage } { pop image } ifelse }ndf /separationimage{image}ndf /newcmykcustomcolor{6 /packedarray where{pop packedarray}{array astore readonly}ifelse}ndf /inkoverprint false ndf /setinkoverprint{pop}ndf /overprintprocess{pop}ndf /setspotcolor {spots exch get 0 5 getinterval exch setcustomcolor}ndf /currentcolortransfer{currenttransfer dup dup dup}ndf /setcolortransfer{systemdict begin settransfer end pop pop pop}ndf /getcmyk { dup length 4 eq {aload pop} {aload pop spots exch get 0 4 getinterval aload pop 4 {4 index mul 4 1 roll}repeat 5 -1 roll pop} ifelse }bdf /setimagecmyk{ getcmyk /ik xdf /iy xdf /im xdf /ic xdf }ndf /autospread{pop}ndf /fhsetspreadsize{pop}ndf /strokeopf false def /fillopf false def /R{0 ne /strokeopf xdf}bdf /O{0 ne /fillopf xdf}bdf /filler{fill}bdf /F{fc fhsetcolor fillopf setoverprint false autospread gsave /filler load fp grestore false setoverprint}bdf /f{closepath F}bdf /S{sc fhsetcolor strokeopf setoverprint true autospread {stroke}fp false setoverprint}bdf /s{closepath S}bdf /B{fc fhsetcolor fillopf setoverprint gsave /filler load fp grestore sc fhsetcolor strokeopf setoverprint true autospread {stroke}fp false setoverprint}bdf /b{closepath B}bdf /setcolorscreen where{pop}{/setcolorscreen{setscreen pop pop pop pop pop pop pop pop pop}bdf}ifelse /fhsetcolor{dup length 4 eq {aload overprintprocess setcmykcolor} {aload 1 get spots exch get 5 get setinkoverprint setspotcolor} ifelse }ndf /settextcolor{ dup fhsetcolor textblackopf { dup length 4 eq {onlyk{3 get 1.0 eq{true setinkoverprint}if}{pop}ifelse} {pop} ifelse } {pop}ifelse }ndf /ka{/fc xdf}bdf /Ka{/sc xdf}bdf /xa{/fc xdf} bdf /Xa{/sc xdf} bdf /bc2[0 0]def /bc4[0 0 0 0]def /absmax{2 copy abs exch abs gt{exch}if pop}bdf /calcstep { {calcgraysteps}{maxsteps}ifelse tc1 length 4 eq { 0 1 3 {tc1 1 index get tc2 3 -1 roll get sub }for absmax absmax absmax } { bc2 tc1 1 get 1 exch put tc1 gettint tc2 gettint sub abs } ifelse mul abs round dup 0 eq{pop 1}if dup /numsteps xdf 1 sub dup 0 eq{pop 1}if /numsteps1 xdf }bdf /cblend{ tc1 length 4 eq { 0 1 3 {bc4 exch tc1 1 index get tc2 2 index get 1 index sub frac mul add put }for bc4 } { bc2 tc1 gettint tc2 gettint 1 index sub frac mul add puttint bc2 } ifelse fhsetcolor }bdf /logtaper{/frac frac 9 mul 1 add log def}bdf FHIODict begin /origmtx matrix currentmatrix def /iminv false def /invbuf{0 1 2 index length 1 sub{dup 2 index exch get 255 exch sub 2 index 3 1 roll put}for}bdf /cmykbufs2gray{ dup length 0 1 3 -1 roll 1 sub {4 index 1 index get 4 index 2 index get 4 index 3 index get 4 index 4 index get 255 exch sub ccmyk ccmyk ccmyk pop 5 mul exch 45 mul add exch 14 mul add -6 bitshift 2 index 3 1 roll put}for 4 1 roll pop pop pop }bdf end /textopf false def /textblackopf true def /curtextmtx{}def /otw .25 def /msf{dup/curtextmtx xdf makefont setfont}bdf /makesetfont/msf load def /curtextheight{.707104 .707104 curtextmtx dtransform dup mul exch dup mul add sqrt}bdf /ta{1 index {tempstr 0 2 index put tempstr 2 index gsave exec grestore tempstr stringwidth rmoveto 5 index eq{6 index 6 index rmoveto}if 3 index 3 index rmoveto }forall 7{pop}repeat}bdf /sts{settextcolor textopf setoverprint/ts{awidthshow}def exec false setoverprint}bdf /stol{/xt currentlinewidth def setlinewidth settextcolor textopf setoverprint newpath /ts{{false charpath stroke}ta}def exec false setoverprint xt setlinewidth}bdf /currentpacking where{pop false setpacking}if /spots[1 0 0 0 (Process Cyan) false newcmykcustomcolor 0 1 0 0 (Process Magenta) false newcmykcustomcolor 0 0 1 0 (Process Yellow) false newcmykcustomcolor 0 0 0 1 (Process Black) false newcmykcustomcolor 0 0 0 0 (White) false newcmykcustomcolor ]def %%EndSetup %%IncludeFont: Symbol 0 dict dup begin end /f0 /Symbol FF def [] 0 d 3.8637 M 1 w 0 j 0 J 0 O 0 R 0 i false eomode [0 0 0 1] Ka [0 0 0 1] ka vms u u u 209.6033 510.629 m 477.0502 510.629 L 477.0502 308.1628 L 209.6033 308.1628 L 209.6033 510.629 L s U 262.2719 510.629 m 262.2719 308.1628 L S vmrs %%IncludeFont: Symbol 0 dict dup begin end /f1 /Symbol FF def { f1 [12 0 0 12 0 0] makesetfont 313.3482 274.3719 m 0 0 32 0 0 (g) ts } [0 0 0 1] sts vmrs %%IncludeFont: Helvetica AVec 256 array copy /f2 /|______Helvetica dup RF findfont def f2 DoPatch { f2 [12 0 0 12 0 0] makesetfont 318.2857 274.3719 m 0 0 32 0 0 ( dose \(Gy\)) ts } [0 0 0 1] sts vmrs %%IncludeFont: Helvetica AVec 256 array copy /f2 /|______Helvetica dup RF findfont def f2 DoPatch { f2 [0 12 -12 0 0 0] makesetfont 175.1794 343.5215 m 0 0 32 0 0 (Photon counts \/100) ts } [0 0 0 1] sts 262.2974 308.192 m 262.2974 301.694 L S 209.6288 340.6824 m 203.1307 340.6824 L S 472.6041 495.9228 m 472.6041 495.9228 457.214 493.8708 452.7679 493.1868 C 448.3219 492.5028 438.0618 490.1087 429.8537 488.7407 C 421.6456 487.3727 411.0435 485.3207 404.5454 483.6107 C 398.0473 481.9007 391.8913 479.8486 386.4192 478.1386 C 380.9472 476.4286 371.0291 473.0086 365.215 470.6145 C 359.4009 468.2205 352.2188 464.8005 347.4308 462.4064 C 342.6428 460.0124 340.2487 457.9604 334.4347 454.1983 C 328.6206 450.4363 324.5165 447.3583 320.4125 444.2803 C 316.3085 441.2022 312.8884 438.1242 308.1004 433.6781 C 303.3123 429.2321 299.8923 425.8121 295.7882 421.366 C 291.6842 416.92 287.2381 411.7899 283.4761 405.6338 C 279.7141 399.4778 276.294 395.0317 273.558 390.5857 C 270.822 386.1396 269.454 384.498 267.0599 380.3256 C 264.6659 376.1532 259.8779 368.0134 257.1418 361.8574 C 254.4058 355.7013 252.3538 350.5712 249.6177 344.7572 C 246.8817 338.9431 244.4877 333.129 241.7517 326.631 C 239.0156 320.1329 234.595 308.412 234.595 308.412 C S 314.9659 308.192 m 314.9659 301.694 L S 367.6345 308.192 m 367.6345 301.694 L S 419.79 308.192 m 419.79 301.694 L S 472.9716 308.192 m 472.9716 301.694 L S 209.6288 308.192 m 209.6288 301.694 L S 209.6288 373.8567 m 203.1307 373.8567 L S 209.6288 407.0311 m 203.1307 407.0311 L S 209.6288 439.5214 m 203.1307 439.5214 L S 209.6288 505.0151 m 203.1307 505.0151 L S 209.6288 308.192 m 203.1307 308.192 L S vmrs %%IncludeFont: Helvetica AVec 256 array copy /f2 /|______Helvetica dup RF findfont def f2 DoPatch { f2 [12 0 0 12 0 0] makesetfont 192.5138 303.3627 m 0 0 32 0 0 (0) ts } [0 0 0 1] sts vmrs %%IncludeFont: Helvetica AVec 256 array copy /f2 /|______Helvetica dup RF findfont def f2 DoPatch { f2 [12 0 0 12 0 0] makesetfont 179.4525 368.8447 m 0 0 32 0 0 (100) ts } [0 0 0 1] sts vmrs %%IncludeFont: Helvetica AVec 256 array copy /f2 /|______Helvetica dup RF findfont def f2 DoPatch { f2 [12 0 0 12 0 0] makesetfont 178.9523 435.7608 m 0 0 32 0 0 (200) ts } [0 0 0 1] sts vmrs %%IncludeFont: Helvetica AVec 256 array copy /f2 /|______Helvetica dup RF findfont def f2 DoPatch { f2 [12 0 0 12 0 0] makesetfont 179.4525 499.4267 m 0 0 32 0 0 (300) ts } [0 0 0 1] sts vmrs %%IncludeFont: Helvetica AVec 256 array copy /f2 /|______Helvetica dup RF findfont def f2 DoPatch { f2 [12 0 0 12 0 0] makesetfont 197.7391 289.9842 m 0 0 32 0 0 (-500) ts } [0 0 0 1] sts vmrs %%IncludeFont: Helvetica AVec 256 array copy /f2 /|______Helvetica dup RF findfont def f2 DoPatch { f2 [12 0 0 12 0 0] makesetfont 259.4066 289.4842 m 0 0 32 0 0 (0 ) ts } [0 0 0 1] sts vmrs %%IncludeFont: Helvetica AVec 256 array copy /f2 /|______Helvetica dup RF findfont def f2 DoPatch { f2 [12 0 0 12 0 0] makesetfont 306.3141 289.4842 m 0 0 32 0 0 (500) ts } [0 0 0 1] sts vmrs %%IncludeFont: Helvetica AVec 256 array copy /f2 /|______Helvetica dup RF findfont def f2 DoPatch { f2 [12 0 0 12 0 0] makesetfont 356.9317 289.8261 m 0 0 32 0 0 (1000) ts } [0 0 0 1] sts vmrs %%IncludeFont: Helvetica AVec 256 array copy /f2 /|______Helvetica dup RF findfont def f2 DoPatch { f2 [12 0 0 12 0 0] makesetfont 408.7592 289.4842 m 0 0 32 0 0 (1500) ts } [0 0 0 1] sts vmrs %%IncludeFont: Helvetica AVec 256 array copy /f2 /|______Helvetica dup RF findfont def f2 DoPatch { f2 [12 0 0 12 0 0] makesetfont 464.6128 289.8262 m 0 0 32 0 0 (2000) ts } [0 0 0 1] sts u u 401.2846 492.5054 m 406.3875 492.5054 L 406.3875 487.4025 L 401.2846 487.4025 L 401.2846 492.5054 L [0 0 0 0] ka b U u 401.2846 483.5753 m 406.3875 483.5753 L 406.3875 478.4724 L 401.2846 478.4724 L 401.2846 483.5753 L b U u 401.2846 478.4724 m 406.3875 478.4724 L 406.3875 473.3695 L 401.2846 473.3695 L 401.2846 478.4724 L b U U 262.2974 516.692 m 262.2974 510.194 L S 321.4659 517.192 m 321.4659 510.694 L S 380.6345 517.192 m 380.6345 510.694 L S 439.54 516.942 m 439.54 510.444 L S vmrs %%IncludeFont: Helvetica AVec 256 array copy /f2 /|______Helvetica dup RF findfont def f2 DoPatch { f2 [12 0 0 12 0 0] makesetfont 258.9066 520.4842 m 0 0 32 0 0 (0) ts } [0 0 0 1] sts vmrs %%IncludeFont: Helvetica AVec 256 array copy /f2 /|______Helvetica dup RF findfont def f2 DoPatch { f2 [12 0 0 12 0 0] makesetfont 311.8141 520.4842 m 0 0 32 0 0 (500) ts } [0 0 0 1] sts vmrs %%IncludeFont: Helvetica AVec 256 array copy /f2 /|______Helvetica dup RF findfont def f2 DoPatch { f2 [12 0 0 12 0 0] makesetfont 366.9317 520.5761 m 0 0 32 0 0 (1000) ts } [0 0 0 1] sts vmrs %%IncludeFont: Helvetica AVec 256 array copy /f2 /|______Helvetica dup RF findfont def f2 DoPatch { f2 [12 0 0 12 0 0] makesetfont 426.0092 520.4842 m 0 0 32 0 0 (1500) ts } [0 0 0 1] sts vmrs %%IncludeFont: Symbol 0 dict dup begin end /f1 /Symbol FF def { f1 [12 0 0 12 0 0] makesetfont 311.3482 537.012 m 0 0 32 0 0 (a) ts } [0 0 0 1] sts vmrs %%IncludeFont: Helvetica AVec 256 array copy /f2 /|______Helvetica dup RF findfont def f2 DoPatch { f2 [12 0 0 12 0 0] makesetfont 318.9107 537.012 m 0 0 32 0 0 ( dose \() ts } [0 0 0 1] sts vmrs %%IncludeFont: Symbol 0 dict dup begin end /f1 /Symbol FF def { f1 [12 0 0 12 0 0] makesetfont 355.635 537.012 m 0 0 32 0 0 (m) ts } [0 0 0 1] sts vmrs %%IncludeFont: Helvetica AVec 256 array copy /f2 /|______Helvetica dup RF findfont def f2 DoPatch { f2 [12 0 0 12 0 0] makesetfont 362.5412 537.012 m 0 0 32 0 0 (m) ts f2 [8 0 0 8 0 0] makesetfont 372.5278 543.012 m 0 0 32 0 0 (-2) ts f2 [12 0 0 12 0 0] makesetfont 379.6507 537.012 m 0 0 32 0 0 (\)) ts } [0 0 0 1] sts u vmrs %%IncludeFont: Helvetica AVec 256 array copy /f2 /|______Helvetica dup RF findfont def f2 DoPatch { f2 [14 0 0 14 0 0] makesetfont 411.5415 364.2684 m 0 0 32 0 0 (N + ) ts } [0 0 0 1] sts vmrs %%IncludeFont: Symbol 0 dict dup begin end /f1 /Symbol FF def { f1 [14 0 0 14 0 0] makesetfont 437.5992 364.2684 m 0 0 32 0 0 (g) ts } [0 0 0 1] sts vmrs %%IncludeFont: Helvetica AVec 256 array copy /f2 /|______Helvetica dup RF findfont def f2 DoPatch { f2 [14 0 0 14 0 0] makesetfont 411.5415 348.5184 m 0 0 32 0 0 (N + ) ts } [0 0 0 1] sts vmrs %%IncludeFont: Symbol 0 dict dup begin end /f1 /Symbol FF def { f1 [14 0 0 14 0 0] makesetfont 437.5992 348.5184 m 0 0 32 0 0 (a) ts } [0 0 0 1] sts u 401.5724 368.3607 m 401.5724 370.1612 403.032 371.6208 404.8326 371.6208 C 406.6331 371.6208 408.0927 370.1612 408.0927 368.3607 C 408.0927 366.5601 406.6331 365.1005 404.8326 365.1005 C 403.032 365.1005 401.5724 366.5601 401.5724 368.3607 C b U u 402.5345 355.6066 m 407.6375 355.6066 L 407.6375 350.5037 L 402.5345 350.5037 L 402.5345 355.6066 L [0 0 0 0] ka b U U u 285.6136 423.418 m 285.6136 425.203 287.0606 426.65 288.8456 426.65 C 290.6305 426.65 292.0775 425.203 292.0775 423.418 C 292.0775 421.633 290.6305 420.1861 288.8456 420.1861 C 287.0606 420.1861 285.6136 421.633 285.6136 423.418 C [0 0 0 1] ka b U u 285.6136 414.697 m 285.6136 416.4819 287.0606 417.9289 288.8456 417.9289 C 290.6305 417.9289 292.0775 416.4819 292.0775 414.697 C 292.0775 412.912 290.6305 411.4651 288.8456 411.4651 C 287.0606 411.4651 285.6136 412.912 285.6136 414.697 C b U u 285.6136 405.1208 m 285.6136 406.9058 287.0606 408.3528 288.8456 408.3528 C 290.6305 408.3528 292.0775 406.9058 292.0775 405.1208 C 292.0775 403.3359 290.6305 401.8889 288.8456 401.8889 C 287.0606 401.8889 285.6136 403.3359 285.6136 405.1208 C b U u 469.8657 504.473 m 469.8657 506.2579 471.3127 507.7049 473.0976 507.7049 C 474.8826 507.7049 476.3296 506.2579 476.3296 504.473 C 476.3296 502.688 474.8826 501.2411 473.0976 501.2411 C 471.3127 501.2411 469.8657 502.688 469.8657 504.473 C b U u 469.8657 501.9079 m 469.8657 503.6929 471.3127 505.1398 473.0976 505.1398 C 474.8826 505.1398 476.3296 503.6929 476.3296 501.9079 C 476.3296 500.1229 474.8826 498.676 473.0976 498.676 C 471.3127 498.676 469.8657 500.1229 469.8657 501.9079 C b U u 469.8657 490.9637 m 469.8657 492.7487 471.3127 494.1957 473.0976 494.1957 C 474.8826 494.1957 476.3296 492.7487 476.3296 490.9637 C 476.3296 489.1788 474.8826 487.7318 473.0976 487.7318 C 471.3127 487.7318 469.8657 489.1788 469.8657 490.9637 C b U u 377.7837 483.2687 m 377.7837 485.0537 379.2307 486.5006 381.0156 486.5006 C 382.8006 486.5006 384.2475 485.0537 384.2475 483.2687 C 384.2475 481.4837 382.8006 480.0368 381.0156 480.0368 C 379.2307 480.0368 377.7837 481.4837 377.7837 483.2687 C b U u 377.7837 476.9416 m 377.7837 478.7266 379.2307 480.1735 381.0156 480.1735 C 382.8006 480.1735 384.2475 478.7266 384.2475 476.9416 C 384.2475 475.1566 382.8006 473.7097 381.0156 473.7097 C 379.2307 473.7097 377.7837 475.1566 377.7837 476.9416 C b U u 377.7837 464.6295 m 377.7837 466.4145 379.2307 467.8615 381.0156 467.8615 C 382.8006 467.8615 384.2475 466.4145 384.2475 464.6295 C 384.2475 462.8445 382.8006 461.3975 381.0156 461.3975 C 379.2307 461.3975 377.7837 462.8445 377.7837 464.6295 C b U u 337.9402 457.1054 m 337.9402 458.8904 339.3872 460.3373 341.1722 460.3373 C 342.9572 460.3373Z13)Gy))m)m (T2" 8/MTsave save def 40 dict begin currentpoint 3 -1 roll sub neg 3 1 roll sub 2912 div 960 3 -1 roll exch div scale currentpoint translate 64 44 translate /thick 0 def /th { dup setlinewidth /thick exch def } def 16 th 970 401 moveto 1836 0 rlineto stroke /cat { dup length 2 index length add string dup dup 5 -1 roll exch copy length 4 -1 roll putinterval } def /ff { dup FontDirectory exch known not { dup dup length string cvs (|______) exch cat dup FontDirectory exch known {exch} if pop } if findfont } def /fs 0 def /cf 0 def /sf {exch dup /fs exch def dup neg matrix scale makefont setfont} def /f1 {ff dup /cf exch def sf} def /ns {cf sf} def /sh {moveto show} def 384 /Symbol f1 (=) 380 500 sh (-) 1464 261 sh (\327) 1948 793 sh 384 /Times-Roman f1 (b) 1190 261 sh (value) 1762 261 sh (13) 960 793 sh (Gy) 1419 793 sh (m) 2317 793 sh 224 ns (2) 2636 625 sh 384 /Symbol f1 (m) 2096 793 sh end MTsave restore diMATH]9 =Times|b-|v THE 911Թ PROGRAM SUITE These programs are for analyzing luminescence data taken for optical dating or for thermoluminescence dating. (D.J.Huntley 1998 The suite consists of four programs as follows: Programs 2, 3 and 4 require that the data be in a speCompObj KObjInfoOle10Native aOle10FmtProgID  344.4041 458.8904 344.4041 457.1054 C 344.4041 455.3204 342.9572 453.8735 341.1722 453.8735 C 339.3872 453.8735 337.9402 455.3204 337.9402 457.1054 C b U u 337.9402 455.0533 m 337.9402 456.8383 339.3872 458.2853 341.1722 458.2853 C 342.9572 458.2853 344.4041 456.8383 344.4041 455.0533 C 344.4041 453.2684 342.9572 451.8214 341.1722 451.8214 C 339.3872 451.8214 337.9402 453.2684 337.9402 455.0533 C b U u 337.9402 449.5129 m 337.9402 451.2979 339.3872 452.7448 341.1722 452.7448 C 342.9572 452.7448 344.4041 451.2979 344.4041 449.5129 C 344.4041 447.728 342.9572 446.281 341.1722 446.281 C 339.3872 446.281 337.9402 447.728 337.9402 449.5129 C b U u 311.9479 443.7672 m 311.9479 445.5522 313.3949 446.9992 315.1799 446.9992 C 316.9648 446.9992 318.4118 445.5522 318.4118 443.7672 C 318.4118 441.9823 316.9648 440.5353 315.1799 440.5353 C 313.3949 440.5353 311.9479 441.9823 311.9479 443.7672 C b U u 311.9479 441.0312 m 311.9479 442.8162 313.3949 444.2631 315.1799 444.2631 C 316.9648 444.2631 318.4118 442.8162 318.4118 441.0312 C 318.4118 439.2462 316.9648 437.7993 315.1799 437.7993 C 313.3949 437.7993 311.9479 439.2462 311.9479 441.0312 C b U u 311.9479 437.9532 m 311.9479 439.7381 313.3949 441.1851 315.1799 441.1851 C 316.9648 441.1851 318.4118 439.7381 318.4118 437.9532 C 318.4118 436.1682 316.9648 434.7212 315.1799 434.7212 C 313.3949 434.7212 311.9479 436.1682 311.9479 437.9532 C b U u 259.2794 375.3665 m 259.2794 377.1515 260.7263 378.5985 262.5113 378.5985 C 264.2963 378.5985 265.7433 377.1515 265.7433 375.3665 C 265.7433 373.5816 264.2963 372.1346 262.5113 372.1346 C 260.7263 372.1346 259.2794 373.5816 259.2794 375.3665 C b U vmrs u 259.2794 373.9986 m 259.2794 375.7835 260.7263 377.2305 262.5113 377.2305 C 264.2963 377.2305 265.7433 375.7835 265.7433 373.9986 C 265.7433 372.2136 264.2963 370.7666 262.5113 370.7666 C 260.7263 370.7666 259.2794 372.2136 259.2794 373.9986 C b U u 259.2794 372.6305 m 259.2794 374.4155 260.7263 375.8624 262.5113 375.8624 C 264.2963 375.8624 265.7433 374.4155 265.7433 372.6305 C 265.7433 370.8455 264.2963 369.3986 262.5113 369.3986 C 260.7263 369.3986 259.2794 370.8455 259.2794 372.6305 C b U u 259.2794 371.2625 m 259.2794 373.0475 260.7263 374.4944 262.5113 374.4944 C 264.2963 374.4944 265.7433 373.0475 265.7433 371.2625 C 265.7433 369.4775 264.2963 368.0306 262.5113 368.0306 C 260.7263 368.0306 259.2794 369.4775 259.2794 371.2625 C b U u 259.2794 369.8945 m 259.2794 371.6794 260.7263 373.1264 262.5113 373.1264 C 264.2963 373.1264 265.7433 371.6794 265.7433 369.8945 C 265.7433 368.1095 264.2963 366.6625 262.5113 366.6625 C 260.7263 366.6625 259.2794 368.1095 259.2794 369.8945 C b U u 259.2794 367.5004 m 259.2794 369.2854 260.7263 370.7323 262.5113 370.7323 C 264.2963 370.7323 265.7433 369.2854 265.7433 367.5004 C 265.7433 365.7154 264.2963 364.2685 262.5113 364.2685 C 260.7263 364.2685 259.2794 365.7154 259.2794 367.5004 C b U u u 288.7846 423.6701 m 293.8875 423.6701 L 293.8875 418.5672 L 288.7846 418.5672 L 288.7846 423.6701 L [0 0 0 0] ka b U u 288.7846 419.1139 m 293.8875 419.1139 L 293.8875 414.011 L 288.7846 414.011 L 288.7846 419.1139 L b U u 288.7846 414.5577 m 293.8875 414.5577 L 293.8875 409.4548 L 288.7846 409.4548 L 288.7846 414.5577 L b U U u u 346.7845 480.3711 m 351.8875 480.3711 L 351.8875 475.2682 L 346.7845 475.2682 L 346.7845 480.3711 L b U u 346.7845 463.6045 m 351.8875 463.6045 L 351.8875 458.5016 L 346.7845 458.5016 L 346.7845 463.604cified format. Data that are in some other formats can be rewritten in this required format using program 1. 1) SFF-MAKE is a program to read data from files in various formats, normalize the data, print it, view it and plot it. However, the main purpose of this program is to create a new file in a particular format; this file is given an .SFF extension. Programs 2, 3 and 4 require that the data be in this particular format 2) REGEN is a program to fit additive-dose data and regeneration data to a single function using the "Australian Slide". 3) INTCPT is a program to fit (a) additive-dose data only. (b) additive-dose with the thermal transfer correction (for optical dating). (c) additive-dose and partial bleach data (for TL dating). (d) additive dose extrapolated to a constant intensity. 4) b-VALUE is a program to jointly fit additive-dose data (beta or gamma) and additive alpha dose data to a single curve, the scaling factor for the two dose scales being the bvalue. Each program is described in some detail in the following sections. Some features that are common to the three main programs are described separately under the heading common features. A formal description of the .SFF file format is given at the end. System Requirements and Options Requirements: IBM compatible operating system operating under DOS or similar operating system. EGA, VGA or compatible monitor. If DOS is used from Windows, full-screen mode should be used. Recommended equipment: Any normal printer. A nicer printout of the fitting parameters is obtained if you have a Hewlett-Packard printer that uses PCL (Hewlett Packards printer control language). The Deskjet 670C and the Deskjet 500 with Prestige Elite cartridge (22706B) are known to work. Any plotter that uses HPGL (Hewlett-Packard graphics language). Most plotters do. The plotter should be set at 9600 baud. Alternatively, the graphs may be obtained using a printer and methods for doing this are described. INDEX page 3 SFF-MAKE program 5 REGENERATION program 8 INTERCEPT program 11 b-VALUE program 13 Common features 16 file formats of files that can be read by SFF-MAKE 20 .SFF file format specifications definitions record means the information on a file that is obtained from a measurement on a single aliquot, for example one glow curve or one shine-down curve. channel refers to a position in the record in which a number, which is usually the number of photon counts, is recorded. column is used in the same sense as it is used in a spreadsheet. point refers to a single datum, ie photon count. SFF-MAKE General description The main purpose of this program is to read data from one or more existing files and then to write a new file with the data in the format that the other programs will read. This format is called .SFF format. The program also allows the user to view, plot and print the data. There are other options which are useful for making the outputs of the main programs more useful. The program is designed to read data in files in: - Daybreaknnipmpnqqqrr sswss u&u'u(u)u5u1w=wEwHwcwewswwwwwwwDzFzVzWzizjzz{{P|Q|~ ~B~C~~~~+, #$FG܄݄ބ߄TX TUpYaU^Js JsU^c^cU U^cIU^chIWGHIJRDEFH ,Y^_cem_`+8%&'9|}ʡˡ̡͡ԡաסݡ!%*,/38:?A\]cdgkpruy~chcch^JhJmU^UUIIcIcVĢƢˢ͢ .4_}ߤ¥æĦŦƦΦϦЦѦڦۦܦݦ hVhVUUc Ichc]+,-./01235679:;=>RSTUVWXYZ\]^`abdeyz~§$%&'DEIJKLMN^_fghiJaJgJbVhVUV^U]8@ADEHUVfgƩΩϩҩԩ#$'*kstwzݪ JRSVYhpqtwɫ۫ܫݫ߫GHIJIJaJaUVUVh^!&(479<=>?BDEHJNOU_`Ԯخ)02:?CïįƯǯȯʯ˯ѯүԯկ֯ٯگۯͱұfqr#$%&'GHIJKabcirstuuDߟ9eKIuDߟ9]acvKI uDIIuPIP uDPVhJaUUOmn-.Nk+, !@!!,!,!!!!!!!!!!!!!!!!!!!!,!!!!#L 00*0#   - @ v @ .89M(Vm!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!nSSRS!ITaoNJwϋ'׌/ߍ7?GOW_go<>GI!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!,I$>Qgkosw{|NOd6IYjә,XYnT!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!P&TƜHAm˞$Mv+%'9ˡ̡\.!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! pr%.0245&_~5HpåĥXƦѦݦ,Sz|!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!hh%|~%Lg8Ʃkݪ Jhܫk `aȯɯʯ֯ׯ!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!`h`h h$m"aElEk" ""\"p"""!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! S S8#""""/$0$%%Y(`(a(b(j((()*e+,,l- /;011=1b1112V2w4x4y4!!!!!!0!! !!!!!!!!!!!!!!!!!!!!!!!!y466;6789==&=== > >>>>>@???@@@@@mA4B5B=B!!!!! !!!!!!!!!!!!!!!!p!!!!!# > 4Z.# 8 4Z.=BBBCD+EEF2GaG,HHH I I+IIIII1JkJJJKMpNqNrNN!!!!!!!!!!!!!!!!!!!!!!!!!!! 2 !27NOOOPPHQIQJQtQuQQQQ4R~RRRSS*TTTTUZUUUUU6V7VcVVVVW4W5WX XXXX!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!h+XYY"Z#Z+ZfZZZZZZ([)[+[,[P[Q[B\w\\\\\2]*_+______Y`Z`^a_a|a}a!!!!!!!!!!!!!!H !!!!!!!!!!!!!!!!!!!!X!hhhhhh%}aaaaaaaabse&ghhiik kkFkknp s ssswsxsss>t u u5u6u?w@www!!!@!!,!!!!!!!,!!!,!,!!!!!!!,!!!,!,!!!!,!,!!!!!hzv&wwwVzzzzz]{{}}+STYTUpXYۉ,I!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!hhh%ׯدٯگۯw!K@Normala c$@$ Heading 10U^"A@"Default Paragraph Font @ Footer !)@ Page Number @ Header ! O" Body Text 2&O2&Body Text Indent 2,OB,Body Text Indent 3 7additional , counting statistics) makeis- 1818  @A|HHL XG(HH(d'`PRNT format code entered from the keyboard bits 1-7 are the year EMBED Equation  1919  @A|HHL XG(HH(d'`PRNTXǫ /)  f  8= '&:ArKUBY_+dzR͠ǫ!!!!!!uvwy{uPI uDI{!!!!!!!!! ! ! ! ! !!!! !!!/ d`%y1:1DJNU0\^Dkw =+q /)  f  8= '%:AqKSSST8TUFY_/dzX!!!!!!!!!!!!!!!!!! !!!!!!i1DOSZnuYZ[\]^_`abcdex m"y4=BNX}awIIT.|ׯwfghijklmnopqrstuj^|^~^ASU:: !!temp , ,  Sharon BeeverAPhysics Grad Sec: FACULTY: HUNTLEY:a set of SUITEs:SUITE23 test2 Sharon BeeverAPhysics Grad Sec: FACULTY: HUNTLEY:a set of SUITEs:SUITE23 test2 Sharon BeeverAPhysics Grad Sec: FACULTY: HUNTLEY:a set of SUITEs:SUITE23 test2 Sharon BeeverAPhysics Grad Sec: FACULTY: HUNTLEY:a set of SUITEs:SUITE23 test2 Sharon BeeverAPhysics Grad Sec: FACULTY: HUNTLEY:a set of SUITEs:SUITE23 test2 Sharon BeeverAPhysics Grad Sec: FACULTY: HUNTLEY:a set of SUITEs:SUITE23 test3 Sharon Beever6Physics Grad Sec:Temporary Items:Word Work File A 3638 Sharon BeeverAPhysics Grad Sec: FACULTY: HUNTLEY:a PICTbj (,Ole10Native:CompObjive8KOle10FmtProgID 7 ObjInfo5 F'OlePICLPICT,dxpr MTHUGrphbj " currentpoint ",Times .+-p/MTsave save def 40 dict begin currentpoint 3 -1 roll sub neg 3 1 roll sub 192 div 192 3 -1 roll exch div scale currentpoint translate 64 -101 translate /cat { dup length 2 index length add string dup dup 5 -1 roll exch copy length 4 -1 roll putinterval } def /ff { dup FontDirectory exch known not { dup dup length string cvs (|______) exch cat dup FontDirectory exch known {exch} if pop } if findfont } def /fs 0 def /cf 0 def /sf {exch dup /fs exch def dup neg matrix scale makefont setfont} def /f1 {ff dup /cf exch def sf} def /ns {cf sf} def /sh {moveto show} def 384 /Times-Roman f1 (-) -16 261 sh end MTsave restore dMATH  -ctࡱLࡱ;  Equationࡱ; h  `  [ .  & Symbol-!= Times New Roman-!b 'Symbol-!- /Times New Roman- !value 9!13 !Gy.Symbol-!>!mCTimes New Roman-!mJTimes New Roman-!2T "-  X & 'Th Xexch def dup neg matrix scale makefont setfont} def /f1 {ff dup /cf exch def sf} def /ns {cf i   .  & Times New Roman-!- & 'FF~E;FT currentpoint ",Times .+-p/MTsave save def 40 dict begin currentpoint 3 -1 roll sub neg 3 1 roll sub 192 div 192 3  !"#$%&% + 7 COW _k ߷8Physics Grad Sec:Microsoft:Word folder:Templates:NormalTHE 911Թ PROGRAM SUITESharon BeeverSharon Beever'@E@v@ 9FJw@Microsoft Word 6.0.13ࡱ; |a|l|u|e|1|3|G|ym|m |2di FMathType Equation1ELO Equationࡱ; ࡱ; ] =Times|b-|v|a|l|u|e|1|3|G|ym|m |2ࡱ; Equationࡱ;  Oh+'0_961497305 Fm/Et0EOle PIC LPICT ԯ֯ׯدٯگOMTimes New RomanTimes Symbol"MArialHelvetica MTimes"h+F+FJwF'!FTHE 911Թ PROGRAM SUITE Sharon Beever Sharon Beeverࡱ; vܥhO eۯ*ff$$$PPPP`RdP=O,(TTX\c o&XF$wYf X\wwwTwwwwT$X8ww wTHE 911Թ PROGRAM SUITE These programs are for analyzing luminescence data taken for optical dating or for thermoluminescence dating. (D.J.Huntley 1998 The suite consists of four programs as follows: Programs 2, 3 and 4 require that the data be in a specified format. Data that are in some other formats can be rewritten in this required format using program 1. 1) SFF-MAKE is a program to read data from files in various formats, normalize the data, print it, view it and plot it. However, the main purpose of this program is to create a new file in a particular format; this file is given an .SFF extension. Programs 2, 3 and 4 require that the data be in this particular format 2) REGEN is a program to fit additive-dose data and regeneration data to a single function using the "Australian Slide". 3) INTCPT is a program to fit (a) additive-dose data only. (b) additive-dose with the thermal transfer correction (for optical dating). (c) additive-dose and partial bleach data (for TL dating). (d) additive dose extrapolated to a constant intensity. 4) b-VALUE is a program to jointly fit additive-dose data (beta or gamma) and additive alpha dose data to a single curve, the scaling factor for the two dose scales being the bvalue. Each program is described in some detail in the following sections. Some features that are common to the three main programs are described separately under the heading common features. A formal description of the .SFF file format is given at the end. System Requirements and Options Requirements: IBM compatible operating system operating under DOS or similar operating system. EGA, VGA or compatible monitor. If DOS is used from Windows, full-screen mode should be used. Recommended equipment: Any normal printer. A nicer printout of the fitting parameters is obtained if you have a Hewlett-Packard printer that uses PCL (Hewlett Packards printer control language). The Deskjet 670C and the Deskjet 500 with Prestige Elite cartridge (22706B) are known to work. Any plotter that uses HPGL (Hewlett-Packard graphics language). Most plotters do. The plotter should be set at 9600 baud. Alternatively, the graphs may be obtained using a printer and methods for doing this are described. INDEX page 3 SFF-MAKE program 5 REGENERATION program 8 INTERCEPT program 11 b-VALUE program 13 Common features 16 file formats of files that can be read by SFF-MAKE 20 .SFF file format specifications definitions record means the information on a file that is obtained from a measurement on a single aliquot, for example one glow curve or one shine-down curve. channel refers to a position in the record in which a number, which is usually the number of photon counts, is recorded. column is used in the same sense as it is used in a spreadsheet. point refers to a single datum, ie photon count. SFF-MAKE General description The main purpose of this program is to read data from one or more existing files and then to write a new file with the data in the format that the other programs will read. This format is called .SFF format. The program also allows the user to view, plot and print the data. There are other options which are useful for making the outputs of the main programs more useful. The program is designed to read data in files in: - Daybreak5 L b U u 346.7845 454.8566 m 351.8875 454.8566 L 351.8875 449.7537 L 346.7845 449.7537 L 346.7845 454.8566 L b U U U U vmr %%Trailer end % FreeHandDict end % FHIODict , Symbol.+ 1This EPS image does not contain a screen preview.*0It will print correctly to a PostScript printer.*File Name : GCSS2.EPS*Title : GCSS2_DH.FH3*Creator : FreeHand*CreationDate : 1/7/98 14:21:35new or yat http://www.concentric.net/~ravitz/. rzZ]128)/079   # v x y } @ G .89Lkll9UhiU^^I^cUUcIJccUc Yi \"a"""""##.$/$:%;%%%%%%%%%%% & &&&&&=&@&Y(Z(^(_(`(i(++,+]/^///o0p0_1`1}1~11111111111111111111111111111J{hU^auD3acI acIuD`acI uDdIhVU^UUc IN112222627282D2E2H2I2J2K2S2T22213233y4z4m5n56:6j7l7998;9;`;a;;;<<===%=&=4=<=== > >>>>>>>>??@@@@@@@@@@AA!)5mnnnnŻҹJsU^cUc aIauDHO9UeKIuDHO9]acvKIUIuDUIhJmJbIUccuDEcIJaUJaUCnnipmpnqqqrr sswss u&u'u(u)u5u1w=wEwHwcwewswwwwwwwDzFzVzWzizjzz{{P|Q|~ ~B~C~~~~+, #$FG܄݄ބ߄TX TUpYaU^Js JsU^c^cU U^cIU^chIWGHIJRDEFH ,Y^_cem_`+8%&'9|}ʡˡ̡͡ԡաסݡ!%*,/38:?A\]cdgkpruy~chcch^JhJmU^UUIIcIcVĢƢˢ͢ .4_}ߤ¥æĦŦƦΦϦЦѦڦۦܦݦ hVhVUUc Ichc]+,-./01235679:;=>RSTUVWXYZ\]^`abdeyz~§$%&'DEIJKLMN^_fghiJaJgJbVhVUV^U]8@ADEHUVfgƩΩϩҩԩ#$'*kstwzݪ JRSVYhpqtwɫ۫ܫݫ߫GHIJIJaJaUVUVh^!&(479<=>?BDEHJNOU_`Ԯخ)02:?CïįƯǯȯʯ˯ѯүԯկ֯ٯگۯͱұfqrIuPIP uDPVhJaUU=mn-.Nk+, !@!!,!,!!!!!!!!!!!!!!!!!!!!,!!!!#L 00*0#   - @ v @ .89M(Vm!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!nSSRS!ITaoNJwϋ'׌/ߍ7?GOW_go<>GI!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!,I$>Qgkosw{|NOd6IYjә,XYnT!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!P&TƜHAm˞$Mv+%'9ˡ̡\.!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! pr%.0245&_~5HpåĥXƦѦݦ,Sz|!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!hh%|~%Lg8Ʃkݪ Jhܫk `aȯɯʯ֯ׯ!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!`h`h h$ׯدٯگۯ!K@Normala c$@$ Heading 10U^"A@"Default Paragraph Font @ Footer !)@ Page Number @ Header ! O" Body Text 2&O2&Body Text Indent 2,OB,Body Text Indent 3 7additional , counting statistics) makeis- 1818  @A|HHL XG(HH(d'`PRNTǫ!!!!!!!!! ! ! ! ! !!!! !!!/ ea%z1:2DKNU,\^?kw7Xǫ /)  f  8= '&:ArKUBY_+dzR͠ǫ!!!!!!!!!!!! !!!!!i1DOSZnYZ[\]^_`abcde m"y4=BNX}awIIT.|ׯfghijklmnopqrstuf^x^z^ǫ: !!ǫtemp ,ȫ ,ȫ  Sharon BeeverAPhysics Grad Sec: FACULTY: HUNTLEY:a set of SUITEs:SUITE23 test2 Sharon Beever3Physics Grad Sec:Temporary Items:Word Work File A 1 Sharon BeeverAPhysics Grad Sec: FACULTY: HUNTLEY:a set of SUITEs:SUITE23 test2 Sharon BeeverAPhysics Grad Sec: FACULTY: HUNTLEY:a set of SUITEs:SUITE23 test2 Sharon BeeverAPhysics Grad Sec: FACULTY: HUNTLEY:a set of SUITEs:SUITE23 test2 Sharon BeeverAPhysics Grad Sec: FACULTY: HUNTLEY:a set of SUITEs:SUITE23 test2 Sharon BeeverAPhysics Grad Sec: FACULTY: HUNTLEY:a set of SUITEs:SUITE23 test2 Sharon BeeverAPhysics Grad Sec: FACULTY: HUNTLEY:a set of SUITEs:SUITE23 test3 Sharon Beever6Physics Grad Sec:Temporary Items:Word Work File A 3638 Sharon BeeverAPhysics Grad Sec: FACULTY: HUNTLEY:a set of SUITEs:SUITE23 test3 @<<<;5b__e;e>{{67ĶЀ;<«ëīūƫǫͱbұhfL~f~qrPƯȯɯʁ FMathType Equation1ELO Equationࡱ;   -ࡱ; ࡱ;