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Bibliographic Details
Main Authors: Serdouk, F., Boumali, A., Benkhedir, M. L., Goutal, Y.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2512.14794
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author Serdouk, F.
Boumali, A.
Benkhedir, M. L.
Goutal, Y.
author_facet Serdouk, F.
Boumali, A.
Benkhedir, M. L.
Goutal, Y.
contents The present study examines the electronic transport characteristics of amorphous semiconductors through TOF measurements and numerical simulations. The primary objective is to determine the DOS in amorphous selenium (a-Se) and to assess the temperature and electric field dependence of the hole mobility. A comprehensive investigation of localized states within the mobility gap is performed using Laplace transform analysis of ToF photocurrent transients, combined with the multiple trapping model. This approach enables accurate reconstruction of the DOS across a wide temperature range, allowing clear identification of shallow and deep trap levels and revealing thermally activated transport mechanisms. Simulated ToF currents are also used to evaluate the hole drift mobility under various thermal and field conditions. Activation energies are extracted from Arrhenius plots of the mobility data. The results support a physically consistent description of the electronic structure in a-Se and validate the applicability of Laplace-based techniques for probing charge transport in disordered semiconductors.
format Preprint
id arxiv_https___arxiv_org_abs_2512_14794
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Investigation of density of states and charge carrier mobility in amorphous semiconductors via time-of-flight photocurrent analysis
Serdouk, F.
Boumali, A.
Benkhedir, M. L.
Goutal, Y.
Materials Science
The present study examines the electronic transport characteristics of amorphous semiconductors through TOF measurements and numerical simulations. The primary objective is to determine the DOS in amorphous selenium (a-Se) and to assess the temperature and electric field dependence of the hole mobility. A comprehensive investigation of localized states within the mobility gap is performed using Laplace transform analysis of ToF photocurrent transients, combined with the multiple trapping model. This approach enables accurate reconstruction of the DOS across a wide temperature range, allowing clear identification of shallow and deep trap levels and revealing thermally activated transport mechanisms. Simulated ToF currents are also used to evaluate the hole drift mobility under various thermal and field conditions. Activation energies are extracted from Arrhenius plots of the mobility data. The results support a physically consistent description of the electronic structure in a-Se and validate the applicability of Laplace-based techniques for probing charge transport in disordered semiconductors.
title Investigation of density of states and charge carrier mobility in amorphous semiconductors via time-of-flight photocurrent analysis
topic Materials Science
url https://arxiv.org/abs/2512.14794