Self-energy effects and electron-phonon coupling in Fe-As superconductors

K. Y. Choi; P. Lemmens; I. Eremin; G. Zwicknagl; H. Berger; G. L. Sun; D. L. Sun; C. T. Lin

doi:10.1088/0953-8984/22/11/115802

Self-energy effects and electron-phonon coupling in Fe-As superconductors

K. Y. Choi, P. Lemmens, I. Eremin, G. Zwicknagl, H. Berger, G. L. Sun, D. L. Sun, C. T. Lin

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30 Scopus citations

Abstract

Doping and temperature dependent studies of optical phonon modes in Fe-122 pnictides are performed using Raman scattering experiments and compared with model calculations to elucidate the role of electron-phonon and spin-phonon interaction in this family of compounds. The frequency and linewidth of the B_1g mode at around 210cm^-1 is highlighted as appreciable anomalies at the superconducting and spin density wave transitions are observed that strongly depend on composition. We give estimates of the electron-phonon coupling related to this renormalization and calculate the phonon self-energy on the basis of a four-band model comparing different symmetries of the order parameters. In addition, we observe a pronounced quasi-elastic Raman response for the undoped compound, suggesting persisting magnetic fluctuations in the spin density wave state.

Original language	English
Article number	115802
Journal	Journal of Physics Condensed Matter
Volume	22
Issue number	11
DOIs	https://doi.org/10.1088/0953-8984/22/11/115802
State	Published - 2010
Externally published	Yes

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title = "Self-energy effects and electron-phonon coupling in Fe-As superconductors",

abstract = "Doping and temperature dependent studies of optical phonon modes in Fe-122 pnictides are performed using Raman scattering experiments and compared with model calculations to elucidate the role of electron-phonon and spin-phonon interaction in this family of compounds. The frequency and linewidth of the B1g mode at around 210cm-1 is highlighted as appreciable anomalies at the superconducting and spin density wave transitions are observed that strongly depend on composition. We give estimates of the electron-phonon coupling related to this renormalization and calculate the phonon self-energy on the basis of a four-band model comparing different symmetries of the order parameters. In addition, we observe a pronounced quasi-elastic Raman response for the undoped compound, suggesting persisting magnetic fluctuations in the spin density wave state.",

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T1 - Self-energy effects and electron-phonon coupling in Fe-As superconductors

AU - Choi, K. Y.

AU - Lemmens, P.

AU - Eremin, I.

AU - Zwicknagl, G.

AU - Berger, H.

AU - Sun, G. L.

AU - Sun, D. L.

AU - Lin, C. T.

PY - 2010

Y1 - 2010

N2 - Doping and temperature dependent studies of optical phonon modes in Fe-122 pnictides are performed using Raman scattering experiments and compared with model calculations to elucidate the role of electron-phonon and spin-phonon interaction in this family of compounds. The frequency and linewidth of the B1g mode at around 210cm-1 is highlighted as appreciable anomalies at the superconducting and spin density wave transitions are observed that strongly depend on composition. We give estimates of the electron-phonon coupling related to this renormalization and calculate the phonon self-energy on the basis of a four-band model comparing different symmetries of the order parameters. In addition, we observe a pronounced quasi-elastic Raman response for the undoped compound, suggesting persisting magnetic fluctuations in the spin density wave state.

AB - Doping and temperature dependent studies of optical phonon modes in Fe-122 pnictides are performed using Raman scattering experiments and compared with model calculations to elucidate the role of electron-phonon and spin-phonon interaction in this family of compounds. The frequency and linewidth of the B1g mode at around 210cm-1 is highlighted as appreciable anomalies at the superconducting and spin density wave transitions are observed that strongly depend on composition. We give estimates of the electron-phonon coupling related to this renormalization and calculate the phonon self-energy on the basis of a four-band model comparing different symmetries of the order parameters. In addition, we observe a pronounced quasi-elastic Raman response for the undoped compound, suggesting persisting magnetic fluctuations in the spin density wave state.

UR - https://www.scopus.com/pages/publications/77749305057

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DO - 10.1088/0953-8984/22/11/115802

M3 - Article

AN - SCOPUS:77749305057

SN - 0953-8984

VL - 22

JO - Journal of Physics Condensed Matter

JF - Journal of Physics Condensed Matter

IS - 11

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ER -

Self-energy effects and electron-phonon coupling in Fe-As superconductors

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