Inelastic x-ray investigation of the ferroelectric transition in SnTe

Christopher D. O'Neill; Dmitry A. Sokolov; Andreas Hermann; Alexei Bossak; Christopher Stock; Andrew D. Huxley

doi:10.1103/PhysRevB.95.144101

Inelastic x-ray investigation of the ferroelectric transition in SnTe

Christopher D. O'Neill, Dmitry A. Sokolov, Andreas Hermann, Alexei Bossak, Christopher Stock, Andrew D. Huxley

Research output: Contribution to journal › Article › peer-review

Abstract

We report that the lowest energy transverse-optic phonon in metallic SnTe softens to near zero energy at the structural transition at TC=75K and importantly show that the energy of this mode below TC increases as the temperature decreases. Since the mode is a polar displacement this proves unambiguously that SnTe undergoes a ferroelectric displacement below TC. Concentration gradients and imperfect stoichiometry in large crystals may explain why this was not seen in previous inelastic neutron scattering studies. Despite SnTe being metallic we find that the ferroelectric transition is similar to that in ferroelectric insulators, unmodified by the presence of conduction electrons: we find that (i) the damping of the polar mode is dominated by coupling to acoustic phonons rather than electron-phonon coupling, (ii) the transition is almost an ideal continuous transition, and (iii) comparison with density functional calculations identifies the importance of dipolar-dipolar screening for understanding this behavior.

Original language	English
Article number	144101
Journal	Physical Review. B, Condensed matter and materials physics
Volume	95
Issue number	14
DOIs	https://doi.org/10.1103/PhysRevB.95.144101
Publication status	Published - 3 Apr 2017

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Huxley_2017_PRB_Inelastic_AAM
© 2017 American Physical Society. This work has been made available online in accordance with the publisher’s policies. This is the author created accepted version manuscript following peer review and as such may differ slightly from the final published version. The final published version of this work is available at https://doi.org/10.1103/PhysRevB.95.144101
Accepted author manuscript, 2.38 MB

https://arxiv.org/abs/1703.08451

Topological Protection and NonEquilibriu: Topological Protection and NonEquilibrium States in Strongly Correlated Electron Systems
Wahl, P. (PI), Baumberger, F. (CoI), Davis, J. C. (CoI), Green, A. (CoI), Hooley, C. (CoI), Keeling, J. M. J. (CoI) & Mackenzie, A. (CoI)
EPSRC
1/09/11 → 31/08/17
Project: Standard

Cite this

@article{9976c635b47f4fe98ae9cc1d5cb0a3a6,

title = "Inelastic x-ray investigation of the ferroelectric transition in SnTe",

abstract = "We report that the lowest energy transverse-optic phonon in metallic SnTe softens to near zero energy at the structural transition at TC=75K and importantly show that the energy of this mode below TC increases as the temperature decreases. Since the mode is a polar displacement this proves unambiguously that SnTe undergoes a ferroelectric displacement below TC. Concentration gradients and imperfect stoichiometry in large crystals may explain why this was not seen in previous inelastic neutron scattering studies. Despite SnTe being metallic we find that the ferroelectric transition is similar to that in ferroelectric insulators, unmodified by the presence of conduction electrons: we find that (i) the damping of the polar mode is dominated by coupling to acoustic phonons rather than electron-phonon coupling, (ii) the transition is almost an ideal continuous transition, and (iii) comparison with density functional calculations identifies the importance of dipolar-dipolar screening for understanding this behavior.",

author = "O'Neill, {Christopher D.} and Sokolov, {Dmitry A.} and Andreas Hermann and Alexei Bossak and Christopher Stock and Huxley, {Andrew D.}",

note = "Support from the Royal Society RG-150247 (A.H.), Engineering and Physical Sciences Research Council EP/L0151101/ and EP/J00099X (C.O.N.) and EP/I031014 (A.D.H.), and the Carnegie Trust for the Universities of Scotland (C.S.) is acknowledged.",

year = "2017",

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doi = "10.1103/PhysRevB.95.144101",

language = "English",

volume = "95",

journal = "Physical Review. B, Condensed matter and materials physics",

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T1 - Inelastic x-ray investigation of the ferroelectric transition in SnTe

AU - O'Neill, Christopher D.

AU - Sokolov, Dmitry A.

AU - Hermann, Andreas

AU - Bossak, Alexei

AU - Stock, Christopher

AU - Huxley, Andrew D.

N1 - Support from the Royal Society RG-150247 (A.H.), Engineering and Physical Sciences Research Council EP/L0151101/ and EP/J00099X (C.O.N.) and EP/I031014 (A.D.H.), and the Carnegie Trust for the Universities of Scotland (C.S.) is acknowledged.

PY - 2017/4/3

Y1 - 2017/4/3

N2 - We report that the lowest energy transverse-optic phonon in metallic SnTe softens to near zero energy at the structural transition at TC=75K and importantly show that the energy of this mode below TC increases as the temperature decreases. Since the mode is a polar displacement this proves unambiguously that SnTe undergoes a ferroelectric displacement below TC. Concentration gradients and imperfect stoichiometry in large crystals may explain why this was not seen in previous inelastic neutron scattering studies. Despite SnTe being metallic we find that the ferroelectric transition is similar to that in ferroelectric insulators, unmodified by the presence of conduction electrons: we find that (i) the damping of the polar mode is dominated by coupling to acoustic phonons rather than electron-phonon coupling, (ii) the transition is almost an ideal continuous transition, and (iii) comparison with density functional calculations identifies the importance of dipolar-dipolar screening for understanding this behavior.

AB - We report that the lowest energy transverse-optic phonon in metallic SnTe softens to near zero energy at the structural transition at TC=75K and importantly show that the energy of this mode below TC increases as the temperature decreases. Since the mode is a polar displacement this proves unambiguously that SnTe undergoes a ferroelectric displacement below TC. Concentration gradients and imperfect stoichiometry in large crystals may explain why this was not seen in previous inelastic neutron scattering studies. Despite SnTe being metallic we find that the ferroelectric transition is similar to that in ferroelectric insulators, unmodified by the presence of conduction electrons: we find that (i) the damping of the polar mode is dominated by coupling to acoustic phonons rather than electron-phonon coupling, (ii) the transition is almost an ideal continuous transition, and (iii) comparison with density functional calculations identifies the importance of dipolar-dipolar screening for understanding this behavior.

U2 - 10.1103/PhysRevB.95.144101

DO - 10.1103/PhysRevB.95.144101

M3 - Article

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SN - 2469-9950

VL - 95

JO - Physical Review. B, Condensed matter and materials physics

JF - Physical Review. B, Condensed matter and materials physics

IS - 14

M1 - 144101

ER -

Inelastic x-ray investigation of the ferroelectric transition in SnTe

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Topological Protection and NonEquilibriu: Topological Protection and NonEquilibrium States in Strongly Correlated Electron Systems

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