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Function
2D/3D Monte Carlo simulations of electron/photon/positron radiation transport in matter
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Description
GamBet is an innovative approach to Monte Carlo simulations of radiation transport in matter. The unitized suite handles the full range of electron/photon/positron interactions with unmatched speed and accuracy. GamBet can be used as a stand-alone tool or as an extension to the Trak or OmniTrak charged-particle-beam codes. Applications include optimization of X-ray targets, electron-beam heating, radiographic imaging, positron physics, radiation therapy research and shielding design. The Basic package runs on personal computers under any version of Windows (32 and 64). The Professional package is optimized for 64-bit, multicore computers.
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Special features
GamBet has a wealth of unique features compared to other Monte Carlo software:
 The Professional package features unlimited memory access and efficient parallel processing for high speed in large production runs.
Material volumes are defined by conformal meshes for accurate representation of slanted or curved boundaries
Option to incorporate calculated 2D or
3D electric and/or magnetic field solutions
Output files of deposited energy may be exported to TDiff or HeatWave for thermal analyses.
Dose quantities recorded on the conformal mesh so that each element acts as a subzone for post-processing
GenDist utility for analysis and plotting of input/output particle distributions
Advanced variance-reduction techniques including interaction forcing and splitting/reduction of particles.
Package includes powerful graphical pre- and post-processors for mesh generation and the analysis of dose and particle orbits
Particle escape files may
be used as input for subsequent runs or ported to the Trak and OmniTrak beam physics codes
Material interactions in the Professional version are handled by the state-of-the-art Penelope 2006 library
Direct mesh generation from photographic or medical images
Textbook-qualtity instruction
manuals and ready-to-run examples
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