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       MCC-MT.  Version 2019

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Monte Carlo for simulation of spectra and efficiency

by modelling of interaction the radiation with matter

Software package MCC-MT (Monte Carlo Calculation Multi Thread) is intended for 3D-modelling of physical experiments and calculation of radiation detectors response functions using Monte Carlo simulation method. Software MCC-MT based on multi-threading technology providing significant increasing the rate of simulation and getting fast result as spectrum. The MCC-MT does not require a knowledge of programming algorithmic languages, as e.g. GEANT4.
MCC-MT simulates interaction between gamma quanta, electrons, positrons and material in the energy range of 1 keV – 10 MeV. Transport processes for fast heavy charged particles are simulated in the energy range of 10 keV – 1 GeV.

Application

• Monte Carlo simulation spectra of gamma, beta and alpha radiation

• calibration of instruments used for ionizing radiation detection and measurements

• calculation of detection limits and minimum detectable activity of radionuclides

• determination of a characteristics of a registration system for inaccessible radioactive sources

• reduction of experimental investigations with using the hazardous ionizing radiation for human health

• obtaining clear picture of the internal processes of radiation transfer in order to optimize the design of the measuring devices and their protection

• comparative demonstration of the different systems of protection against ionizing radiation and its detection systems

• training of personnel in working with ionizing radiation detection systems without using of an expensive equipment and radioactive sources

• training of specialists in the field of measurement and protection from ionizing radiation

• acceleration, simplification and reduction in the cost of design and optimization of ionizing radiation detection systems

• characterization detectors and detection systems

Special features

• high accuracy of calculations

• simplicity of using for a wide range of tasks

• detailed 3D-scene based on Open GL graphics technology providing maximum representation and visibility of modeling

• availability of replenished database of sources and materials

• possibility of creating the maximally complex measuring systems

• forming multidetector systems and schemes of coincidence

• display of the results in the form of an ideal and real spectrum

• tracing and drawing trajectories of particles during calculation process
• availability of the ready and test projects in the distributive package (HPGe, scintillation detectors, protective lead shielding, volumetric sources and samples, etc.)
• accounting cascade summation ('Full cascade' source type)
• using of the specified number of computer processors in order to implement multithreading and speed up the calculation

• automatic creation of efficiency curves

• network version for 2 and more PC is available

• compatible with software ASW2

Parameters

Energy range:  1 keV  -  10 МeV
Particles: photons, electrons (positrons), heavy charged particles
Figures: cylinder, cone, parallelepiped, torus, sphere, shear shape, rotation figure, polygon, disk.
Types of spectra:   linear, beta - continuous, continuous, full cascade.
Projects views:   contour, grid, fill with color, section,  fill + grid, section + fill with color.
Types of source geometries: point,  volumetric