Phonon self-energy and origin of anomalous neutron scattering spectra in SnTe and PbTe thermoelectrics

C. W. Li; O. Hellman; J. Ma; A. F. May; H. B. Cao; X. Chen; A. D. Christianson; G. Ehlers; D. J. Singh; B. C. Sales; O. Delaire

doi:10.1103/PhysRevLett.112.175501

Phonon self-energy and origin of anomalous neutron scattering spectra in SnTe and PbTe thermoelectrics

C. W. Li, O. Hellman, J. Ma, A. F. May, H. B. Cao, X. Chen, A. D. Christianson, G. Ehlers, D. J. Singh, B. C. Sales, O. Delaire

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140 Scopus citations

Abstract

The anharmonic lattice dynamics of rock-salt thermoelectric compounds SnTe and PbTe are investigated with inelastic neutron scattering (INS) and first-principles calculations. The experiments show that, surprisingly, although SnTe is closer to the ferroelectric instability, phonon spectra in PbTe exhibit a more anharmonic character. This behavior is reproduced in first-principles calculations of the temperature-dependent phonon self-energy. Our simulations reveal how the nesting of phonon dispersions induces prominent features in the self-energy, which account for the measured INS spectra and their temperature dependence. We establish that the phase space for three-phonon scattering processes, combined with the proximity to the lattice instability, is the mechanism determining the complex spectrum of the transverse-optic ferroelectric mode.

Original language	English
Article number	175501
Journal	Physical Review Letters
Volume	112
Issue number	17
DOIs	https://doi.org/10.1103/PhysRevLett.112.175501
State	Published - Apr 30 2014

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title = "Phonon self-energy and origin of anomalous neutron scattering spectra in SnTe and PbTe thermoelectrics",

abstract = "The anharmonic lattice dynamics of rock-salt thermoelectric compounds SnTe and PbTe are investigated with inelastic neutron scattering (INS) and first-principles calculations. The experiments show that, surprisingly, although SnTe is closer to the ferroelectric instability, phonon spectra in PbTe exhibit a more anharmonic character. This behavior is reproduced in first-principles calculations of the temperature-dependent phonon self-energy. Our simulations reveal how the nesting of phonon dispersions induces prominent features in the self-energy, which account for the measured INS spectra and their temperature dependence. We establish that the phase space for three-phonon scattering processes, combined with the proximity to the lattice instability, is the mechanism determining the complex spectrum of the transverse-optic ferroelectric mode.",

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T1 - Phonon self-energy and origin of anomalous neutron scattering spectra in SnTe and PbTe thermoelectrics

AU - Li, C. W.

AU - Hellman, O.

AU - Ma, J.

AU - May, A. F.

AU - Cao, H. B.

AU - Chen, X.

AU - Christianson, A. D.

AU - Ehlers, G.

AU - Singh, D. J.

AU - Sales, B. C.

AU - Delaire, O.

PY - 2014/4/30

Y1 - 2014/4/30

N2 - The anharmonic lattice dynamics of rock-salt thermoelectric compounds SnTe and PbTe are investigated with inelastic neutron scattering (INS) and first-principles calculations. The experiments show that, surprisingly, although SnTe is closer to the ferroelectric instability, phonon spectra in PbTe exhibit a more anharmonic character. This behavior is reproduced in first-principles calculations of the temperature-dependent phonon self-energy. Our simulations reveal how the nesting of phonon dispersions induces prominent features in the self-energy, which account for the measured INS spectra and their temperature dependence. We establish that the phase space for three-phonon scattering processes, combined with the proximity to the lattice instability, is the mechanism determining the complex spectrum of the transverse-optic ferroelectric mode.

AB - The anharmonic lattice dynamics of rock-salt thermoelectric compounds SnTe and PbTe are investigated with inelastic neutron scattering (INS) and first-principles calculations. The experiments show that, surprisingly, although SnTe is closer to the ferroelectric instability, phonon spectra in PbTe exhibit a more anharmonic character. This behavior is reproduced in first-principles calculations of the temperature-dependent phonon self-energy. Our simulations reveal how the nesting of phonon dispersions induces prominent features in the self-energy, which account for the measured INS spectra and their temperature dependence. We establish that the phase space for three-phonon scattering processes, combined with the proximity to the lattice instability, is the mechanism determining the complex spectrum of the transverse-optic ferroelectric mode.

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DO - 10.1103/PhysRevLett.112.175501

M3 - Article

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JO - Physical Review Letters

JF - Physical Review Letters

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Phonon self-energy and origin of anomalous neutron scattering spectra in SnTe and PbTe thermoelectrics

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