Monte Carlo simulation of the radiation transport in chromium compensated gallium arsenide detectors

• Main Authors: A. Leyva Fabelo, J. A. Rubiera Gimeno, D. Leyva Pernía, I. Piñera Hernández, A. Meneses, A. S. Zhemchugov, G. A. Chelkov, C. M. Cruz Inclán
• Format: Article
• Language: English
• Published: Centro de Gestión de la Información y Desarrollo de la Energía (CUBAENERGIA) 2019-06-01
• Series: Nucleus
• Subjects: radiation detectors; gallium arsenides; mathematical models; monte carlo method; energy losses; cross sections; atomic displacements
• Online Access: http://nucleus.cubaenergia.cu/index.php/nucleus/article/view/659

Some results obtained with the use of Monte Carlo mathematical simulation of radiation transport in Timepix hybrid detectors based on chromium compensated gallium arsenide are presented in this contribution. The MCNPX, GEANT4, SRIM and MCCM code systems were used for this purpose. The in-depth profiles of the deposited energy by the incident photons within the sensor active volume, the shapes and dimensions of the generated charge carriers clouds for different incident energies and specific geometrical conditions were obtained and presented. The 22Ne ions ranges in the target material for two different energies and the contributions of each energy loss channel were also determined. Finally, for a selected detector irradiated with photons of different energies, the displacement cross sections for each chemical element in the active material, as well as the number of displacements per atoms produced for each atomic species were calculated.