Entropy (Apr 2024)

Computation of the Spatial Distribution of Charge-Carrier Density in Disordered Media

  • Alexey V. Nenashev,
  • Florian Gebhard,
  • Klaus Meerholz,
  • Sergei D. Baranovskii

DOI
https://doi.org/10.3390/e26050356
Journal volume & issue
Vol. 26, no. 5
p. 356

Abstract

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The space- and temperature-dependent electron distribution n(r,T) determines optoelectronic properties of disordered semiconductors. It is a challenging task to get access to n(r,T) in random potentials, while avoiding the time-consuming numerical solution of the Schrödinger equation. We present several numerical techniques targeted to fulfill this task. For a degenerate system with Fermi statistics, a numerical approach based on a matrix inversion and one based on a system of linear equations are developed. For a non-degenerate system with Boltzmann statistics, a numerical technique based on a universal low-pass filter and one based on random wave functions are introduced. The high accuracy of the approximate calculations are checked by comparison with the exact quantum-mechanical solutions.

Keywords