Journal
NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION B-BEAM INTERACTIONS WITH MATERIALS AND ATOMS
Volume 255, Issue 1, Pages 286-290Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/j.nimb.2006.11.031
Keywords
Monte Carlo; computer simulation; fano factor; germanium; electron cascade
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The interactions of X-ray and gamma-ray photons with materials are of fundamental interest to many fields. The interactions of these primary photons with atoms result in the creation of fast electrons. The subsequent electron-solid interactions involve the partitioning of energy loss into different quantum mechanical processes that are important to determining the mean energy required to create an electron-hole pair, W, and the intrinsic variance (or Fano factor, F) for radiation detectors. In the present work, a Monte Carlo method previously developed has been employed to simulate the interaction of photons with Ge over the energy range from 50 eV to similar to 2 MeV and the subsequent electron cascades. Various quantum mechanical processes for energy loss of fast electrons, which control the broadening of variance, are investigated in detail. At energies lower than 1 keV, W generally decreases with increasing photon energy from 2.95 to 2.75 eV in Ge, whereas it has a constant value of 2.64 eV for higher energies. Also, the function, F, decreases with increasing photon energy. Above the L shell edge, F has a value of 0.11 that is smaller than that in Si (0.14). However, F exhibits a sawtooth variation, and discontinuities at the shell edges that follow the photoelectric cross sections. These results are in good agreement with experimental measurements. The simulated distribution indicates that the interband transition and plasmon excitation are the most important mechanisms of electron-hole pair creation in Ge, while core shell ionization appears to be significant only at high energies. (c) 2006 Elsevier B.V. All rights reserved.
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