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Temperature dependent vibrational spectra in non-crystalline materials: application to hydrogenated amorphous silicon

We present a novel approach for parameter-free modeling of the structural, dynamical and electronic properties of non-crystalline materials based on ab-initio Molecular Dynamics, improved signal processing technique and computer visualization. The method have been extensively tested by investigating...

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Published in:	arXiv.org 2007-11
Main Authors:	Kupchak, I M, Gaspari, F, Shkrebtii, A I, Perz, J
Format:	Article
Language:	English
Subjects:	Amorphous materials Amorphous silicon Crystal structure Crystallinity Hydrogen Hydrogen storage Hydrogen-based energy Hydrogenation Migration Molecular dynamics Signal processing Silicon wafers Stability analysis Structural stability Temperature dependence Test procedures Vibrational spectra
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creator	Kupchak, I M Gaspari, F Shkrebtii, A I Perz, J
description	We present a novel approach for parameter-free modeling of the structural, dynamical and electronic properties of non-crystalline materials based on ab-initio Molecular Dynamics, improved signal processing technique and computer visualization. The method have been extensively tested by investigating hydrogen and silicon dynamics in hydrogenated amorphous silicon (a-Si:H). By comparing the theoretical and experimental vibrational spectra we demonstrate how to relate vibrational properties to the structural stability, bonding and hydrogen diffusion. We extracted microscopic characteristics that cannot be obtained by other techniques, namely hydrogen migration and related bond switching, dangling bond passivation, low hydrogen activation energy, and a-Si:H stability in general, and we show, via the analysis of a test case, that our method provides a rigorous and realistic description of non-crystalline materials. We also demonstrate that this method offers the possibility of accessing other important macroscopic characteristics of amorphous silicon and can be used to model all the aspects of a-Si:H dynamics, including the detrimental Staebler-Wronski effect.
doi_str_mv	10.48550/arxiv.0711.0912
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source	Publicly Available Content (ProQuest)
subjects	Amorphous materials Amorphous silicon Crystal structure Crystallinity Hydrogen Hydrogen storage Hydrogen-based energy Hydrogenation Migration Molecular dynamics Signal processing Silicon wafers Stability analysis Structural stability Temperature dependence Test procedures Vibrational spectra
title	Temperature dependent vibrational spectra in non-crystalline materials: application to hydrogenated amorphous silicon
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