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ProtoCalc
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Function
2D/3D simulations of energetic ion interactions with matter
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Description
ProtoCalc is an innovative approach to modeling the transport of energetic ions (0.01 to 400 MeV) in matter. The program combines deterministic and Monte Carlo methods to achieve unmatched speed and accuracy. ProtoCalc can be used as a stand-alone tool or as an extension to the Trak or OmniTrak charged-particle-beam codes. Applications include radiation treatments, radiography and detector design. The suite includes seven linked components: Geometer (build 3D structures in an interactive environment), MetaMesh (create 3D conformal meshes), Mesh (2D conformal mesh generator), ProtoCalc (main solution engine), PCView2 (plots and analysis of 2D dose distributions), PCView3 (plots and analysis of 3D dose distributions) and GenDist (generation, plotting and analysis of particle distributions).
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Features
Unlimited memory access and efficient parallel processing for rapid production runs.
Material volumes are defined by conformal meshes for accurate representation of slanted or curved boundaries.
Data for proton interactions in 208 elements, compounds and tissue are included. Users can generate data for any ion and material in an interactive dialog.
Integrated graphical pre- and post-processors for mesh generation and the analysis of dose and particle orbits.
Option to include calculated 2D or 3D magnetic field solutions.
Output files of deposited energy may be exported to TDiff or HeatWave for thermal analyses.
Particle escape files may be used as input for subsequent runs or ported to the Trak and OmniTrak beam physics codes.
Direct mesh generation from photographic or medical images.
Textbook-quality instruction manuals and ready-to-run examples.
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Please contact us for technical or price information, to arrange a free trial or to discuss how finite-element software can meet your application.
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