Vibrational properties of the layered semiconductor germanium sulfide under hydrostatic pressure: Theory and experiment

H. C. Hsueh; M. C. Warren; H. Vass; G. J. Ackland; S. J. Clark; J. Crain

doi:10.1103/PhysRevB.53.14806

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Vibrational properties of the layered semiconductor germanium sulfide under hydrostatic pressure: Theory and experiment

H. C. Hsueh, M. C. Warren, H. Vass, G. J. Ackland, S. J. Clark, and J. Crain

Phys. Rev. B 53, 14806 – Published 1 June 1996

Abstract

The structural and vibrational properties of the prototypical layered semiconductor germanium sulfide (GeS) have been studied under pressure using a combination of high-resolution x-ray powder diffraction, Raman scattering, and ab initio simulation. The theoretically and experimentally determined pressure response of the static and dynamical properties are in good agreement with each other. No structural phase transformation is found up to 94 kbar. Inspection of the calculated eigenvectors of zone center phonons at several pressures indicates that the validity of the rigid-layer mode approximation is appropriate only at near-ambient pressure conditions and breaks down under compression. © 1996 The American Physical Society.

Received 10 January 1996

DOI:https://doi.org/10.1103/PhysRevB.53.14806

Authors & Affiliations

H. C. Hsueh, M. C. Warren, H. Vass, G. J. Ackland, S. J. Clark, and J. Crain

Department of Physics and Astronomy, The University of Edinburgh, Edinburgh, EH9 3JZ, Scotland, United Kingdom

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Vol. 53, Iss. 22 — 1 June 1996

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Physical Review B

covering condensed matter and materials physics

Vibrational properties of the layered semiconductor germanium sulfide under hydrostatic pressure: Theory and experiment

H. C. Hsueh, M. C. Warren, H. Vass, G. J. Ackland, S. J. Clark, and J. Crain

Phys. Rev. B 53, 14806 – Published 1 June 1996

Abstract

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Physical Review B

covering condensed matter and materials physics

Vibrational properties of the layered semiconductor germanium sulfide under hydrostatic pressure: Theory and experiment

H. C. Hsueh, M. C. Warren, H. Vass, G. J. Ackland, S. J. Clark, and J. Crain

Phys. Rev. B 53, 14806 – Published 1 June 1996

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