Simulations of the inelastic response of silicon to shock compression

Abstract

Recent experiments employing nanosecond white-light X-ray diffraction have demonstrated a complex response of pure, single crystal silicon to shock compression on ultra-fast timescales. We present here details of a Lagrangian code which tracks both longitudinal and transverse strains, and successfully reproduces the experimental response by incorporating a model of the shock-induced, yet kinetically inhibited, phase transition. This model is also shown to reproduce results of classical molecular dynamics simulations of shock compressed silicon.

Metadata

Item Type:	Article
Authors/Creators:	Stubley, P. G. Higginbotham, A. https://orcid.org/0000-0001-5211-9933 Wark, J. S.
Copyright, Publisher and Additional Information:	© 2016 Published by Elsevier B.V.
Keywords:	Lagrangian elastic code,Molecular dynamics,Phase-change,Shock-compression,Silicon
Dates:	Published: 15 February 2017 Published (online): 18 December 2016 Accepted: 6 November 2016
Institution:	The University of York
Academic Units:	The University of York > Faculty of Sciences (York) > Physics (York)
Depositing User:	Pure (York)
Date Deposited:	25 Jan 2017 09:19
Last Modified:	16 Oct 2024 13:31
Published Version:	https://doi.org/10.1016/j.commatsci.2016.11.006
Status:	Published
Refereed:	Yes
Identification Number:	10.1016/j.commatsci.2016.11.006
Related URLs:	http://www.scopus.com/inward/record.url?...
Open Archives Initiative ID (OAI ID):	oai:eprints.whiterose.ac.uk:111176

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Simulations of the inelastic response of silicon to shock compression

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