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BetheHeitler-1.3 ================ June 2015 Changes from BetheHeitler-1.2 ----------------------------- 1. Added a sensitive volume right after the target, which I have called the "Monitor". This will record the energy and trajectory of any electron or positron that passes through it. 2. I have added user controllable options to the OutputFile class. These include: How the output file name is determined, and whether or not the information from the "Monitor" is recorded and included in the output file. BetheHeitler-1.2 ================ May 2015 Changes from BetheHeitler-1.1 ----------------------------- 1. Added the hodoscope paddles 2. Changed output format to include paddle data 3. Cleaned up a few annoyances. Presently the option is to not output data unless there is a hit in the hodoscope. Still to do: Add light output calculation to hodoscope paddle output. (At present light_output = energy_deposited) BetheHeitler-1.1 ============== November 2014 This is the second release of the geant4 simulation of the pair spectrometer magnet and the VDC wire chambers for the Bethe-Heitler experiment. This version is configured to work with recent releases of GEANT4 using the CMake build system. Changes from BetheHeitler-1.0 ----------------------------- 1. Fixed error with target location geometry. 2. Added second set of VDCs - VDC 0 beam left, VDC 1 beam right Output identifies which VDC got hit. 3. Added option to simulate a photon beam originating upstream of target. Compilation instructions: ------------------------- Get the package betheheitler-1.0.tgz from http://nucleus.usask.ca/ftp/pub/rob/ Unpack the tar file into a suitable directory in your geant4 tree. e.g. suppose you have installed geant4 in a directory structure $HOME/geant4 /geant4-source /geant4-install /geant4-build then cd $HOME/geant4 and type > tar zxvf betheheitler-1.0.tgz this will create the directory "BetheHeitler-1.0" Then you would have.. $HOME/geant4 /geant4-source /geant4-install /geant4-build /BetheHeitler-1.0 /... Using the CMake GUI is easiest so this will be described but you can also use the command line. In the CMake GUI Browse Source and set it to $HOME/geant4/BetheHeitler-1.0 Browse Build and set it to $HOME/geant4/BetheHeitler-1.0 Click Configure Choose the default "Unix Makefiles" and "Use Native Compilers" in the popup and click OK. It will complain that it cannot find the package configuration file for Geant4. Set "Geant4_DIR" by clicking on Geant4_DIR-NOTFOUND then clicking on the [...] button. Choose the geant4 directory containing the "Geant4Config.cmake" file e.g. $HOME/geant4/geant4-install/lib/Geant4-9.6.1 click "Open" click Configure again It should simply report "Configuring done". (You do not need to change CMAKE_BUILD_TYPE or CMAKE_INSTALL_PREFIX. The BetheHeitler application can stay in this directory.) click Generate It should simply report "Generating done". a "Makefile" will have been created in the BetheHeitler-1.0 directory. then in the BetheHeitler-1.0 directory type > make This will create the BethHeitler application. Before running the application you will need to set up the environment variables needed by GEANT4. Geant provides a setup script to accomplish this in ../geant4-install/bin For convenience we have found it useful to create a setup script to be put in your geant4 directory. e.g. create the file $HOME/geant4/setup-geant4 which contains the lines (for the csh or tcsh) #!/bin/csh set g4script_dir=$GEANT_DIR/geant4-install/bin cd $g4script_dir source geant4.csh cd $GEANT_DIR You should make this file executable. > chmod +x setup-geant4 To run this first set the environment variable GEANT_DIR e.g. for the csh > setenv GEANT_DIR $HOME/geant4 (It would be convenient to place this in your login script so it is always set when you start a new terminal window. e.g. for the csh add the above line to the .cshrc file.) Then the script must be "sourced" e.g. > cd $GEANT_DIR > source setup-geant4 Geant4 applications may now be run. The BetheHeitler application should now be avalable to be run. Normally it would be run from within the directory in which it is installed. i.e. in the directory $HOME/geant4/BetheHeitler-1.0 type > BetheHeitler or type > BetheHeitler <macrofilename> The first option starts the application with the Qt GUI. Modifying the file "gui.mac" allows you to define which buttons are available in the menus of the GUI. The macro file "vis.mac" is also read to set up the default view for the detector visualization. The second option simply executes the macros in the file <macrofilename> with no GUI and no visualization. Example macro files are included in the distributions. e.g. run_input.mac run_input_all.mac run_input_fit.mac After a /run/beamOn command and the simulation completes a file named "BH.0000.dat" will have been written which contains the event-by-event data. If more /run/beamOn commands are executed in the same session, the subsequent files will be named "BH.0001.dat", "BH.0002.dat", etc. Existing BH.####.dat files are overwritten so if you want to save the data is is suggested you copy or rename the file. #### is the Geant4 run number. With version 1.3 there are now options to control the output file. You can change the prefix from "BH" so something else. You can change #### from the G4 run number to a unique run number kept in a file named "<prefix>.runno" and which is incremented after each run starts. This is useful when running multiple copies of the simulation on the one machine so that the output files from each are kept seperate. The parameters of the run are included in a header to the event-by-event data file along with a line indicating the column headings in the file. These lines in the file start with "#", so programs that read the event-by-event data from this file should ignore all lines beginning with a "#". :---- :Deprecated in version 1.2: :A perl script is included in the distribution which can be used to :get aggregate information from the data. :Run by (for e.g.) :> getstats.pl <BH.0000.dat :(The outout is, in general, not particuly useful except for debuging.) :---- The BetheHeitler program contains many parameters that can be changed without modifying and recompiling the code. Parameters of the geometetry/detector. ====================================== /BH/detector/set_B0 <field> [unit] Sets the central magnetic field. Default unit: tesla (candidates: tesla gauss kilogauss) /BH/detector/set_target_material <material> Select the Target Material. MUST execute /BH/detector/update for change to take effect. Candidate materials: Scintillator Mylar Polyethylene Air Ethane/Argon G4_He G4_Al G4_Cu G4_C G4_U G4_Fe G4_Galactic /BH/detector/set_target_thickness <target_thickness> [unit] Set the thickness of the target. MUST execute /BH/detector/update for changes to take effect. Default unit: mm (candidates: mm cm micron) /BH/detector/update Update geometry. This command MUST be applied before "beamOn" if you changed geometrical value(s) /BH/detector/print Print the current values of the changeable geometry parameters. Parameters controlling the emitted electrons (positrons) from the target. ========================================================================= Note: in the following, the primary particle coordinate system used in the following is not the same as the geant4 coordinate system displayed in the geant4 viewer. The primary particle coordinate system is the same as in the RAYTRACE program. Primary particle coordinate system: z = beam direction, x = beam left, y = up center of target is x = y = z = 0 Geant4 coordinate system: x = beam direction, y = beam left, z = up (The output coordinate system is relative to the first VDC in each VDC package.) ---- /BH/gun/set_central_energy <energy> [unit] Set the central energy. Default unit: MeV (candidates: MeV keV) /BH/gun/set_delta_min <delta_min> Set minimum % from central energy. /BH/gun/set_delta_max <delta_max> Set maximum % from central energy. [The particle energy will be chosen randomly so that central_energy*(1-delta_min/100) < energy < central_energy*(1+delta_max/100) ] /BH/gun/set_x_min <x_min> [unit] Set minimum x position. Default unit: cm (candidates: mm cm m) /BH/gun/set_x_max <x_max> [unit] Set maximum x position. Default unit: cm (candidates: mm cm m) /BH/gun/set_y_min <y_min> [unit] Set minimum y position. Default unit: cm (candidates: mm cm m) /BH/gun/set_y_max <y_max> [unit] Set maximum y position. Default unit: cm (candidates: mm cm m) /BH/gun/set_radius_max <radius>_max [unit] Set maximum position radius. Default unit: cm (candidates: mm cm m) [The particle starting position will be chosen randomly with x_min < x < x_max and y_min < y < y_max and sqrt(x^2 +y^2) < radius and with gamma_mode = false: -target_thickness/2 < z < +target_thickness/2 ] with gamma_mode = true: z = -(target_to_helium_window air thickness) /BH/gun/set_theta_min <theta_min> [unit] Set minimum theta angle. Default unit: mrad (candidates: mrad rad deg) /BH/gun/set_theta_max <theta_max> [unit] Set maximum theta angle. Default unit: mrad (candidates: mrad rad deg) /BH/gun/set_phi_min <phi_min> [unit] Set minimum phi angle. Default unit: mrad (candidates: mrad rad deg) /BH/gun/set_phi_max <phi_max> [unit] Set maximum phi angle. Default unit: mrad (candidates: mrad rad deg) /BH/gun/set_angle_max <angle_max> [unit] Set maximum angle. Default unit: mrad (candidates: mrad rad deg) [The particle starting angles will be chosen randomly with theta_min < theta < theta_max and phi_min < phi < phi_max and sqrt(theta^2 +phi^2) < angle_max ] /BH/gun/set_gamma_mode <true/false> Set where the primary particle is generated. false - generated within target. true - generated in air just upstream of target. Note: Use /gun/particle <particle name> to change primary particle type to gamma. /BH/gun/print Print the current values of the particle gun parameters. Parameters controlling the output file. ======================================= /BH/outputfile/set_use_monitor <true/false> If true: Record and included monitor information in output file. If false: Do not record monitor information. /BH/outputfile/set_use_unique_filename <true/false> Output filename is <prefix>.<runno>.dat If false: runno = G4 run number. If true: runno = run number read from file <prefix>.runno. The number in <prefix>.runno is incremented and written back into the file at the start of a run. /BH/outputfile/set_prefix <prefix> Set the prefix for the output file filename. /BH/outputfile/set_header_frequency <number> Set the number of output file events between when a header is printed. The header lines start with "#" and summarize the output file format. <number> = -1 means no headers after the first (the default behavour) /BH/outputfile/print Print current output file parameters.
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