Effect of linear density of states on the quasiparticle dynamics and small electron-phonon coupling in graphite

C. S. Leem; B. J. Kim; Chul Kim; S. R. Park; T. Ohta; A. Bostwick; E. Rotenberg; H. D. Kim; M. K. Kim; H. J. Choi; C. Kim

doi:10.1103/PhysRevLett.100.016802

Effect of linear density of states on the quasiparticle dynamics and small electron-phonon coupling in graphite

C. S. Leem, B. J. Kim, Chul Kim, S. R. Park, T. Ohta, A. Bostwick, E. Rotenberg, H. D. Kim, M. K. Kim, H. J. Choi, C. Kim

Department of Physics

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

32 Citations (Scopus)

Abstract

We obtained the spectral function of very high quality natural graphite single crystals using angle-resolved photoelectron spectroscopy. A clear separation of nonbonding and bonding bands and asymmetric lineshape are observed. The asymmetric line shapes are well accounted for by the finite photoelectron escape depth and the band structure. The extracted width of the spectral function (inverse of the photohole life time) near the K point is, beyond the maximum phonon energy, approximately proportional to the energy as expected from the linear density of states near the Fermi energy. The upper bound for the electron-phonon coupling constant is about 0.2, a much smaller value than the previously reported one.

Original language	English
Article number	016802
Journal	Physical review letters
Volume	100
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevLett.100.016802
Publication status	Published - 2008 Jan 10

All Science Journal Classification (ASJC) codes

Physics and Astronomy(all)

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10.1103/PhysRevLett.100.016802

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title = "Effect of linear density of states on the quasiparticle dynamics and small electron-phonon coupling in graphite",

abstract = "We obtained the spectral function of very high quality natural graphite single crystals using angle-resolved photoelectron spectroscopy. A clear separation of nonbonding and bonding bands and asymmetric lineshape are observed. The asymmetric line shapes are well accounted for by the finite photoelectron escape depth and the band structure. The extracted width of the spectral function (inverse of the photohole life time) near the K point is, beyond the maximum phonon energy, approximately proportional to the energy as expected from the linear density of states near the Fermi energy. The upper bound for the electron-phonon coupling constant is about 0.2, a much smaller value than the previously reported one.",

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T1 - Effect of linear density of states on the quasiparticle dynamics and small electron-phonon coupling in graphite

AU - Leem, C. S.

AU - Kim, B. J.

AU - Kim, Chul

AU - Park, S. R.

AU - Ohta, T.

AU - Bostwick, A.

AU - Rotenberg, E.

AU - Kim, H. D.

AU - Kim, M. K.

AU - Choi, H. J.

AU - Kim, C.

PY - 2008/1/10

Y1 - 2008/1/10

N2 - We obtained the spectral function of very high quality natural graphite single crystals using angle-resolved photoelectron spectroscopy. A clear separation of nonbonding and bonding bands and asymmetric lineshape are observed. The asymmetric line shapes are well accounted for by the finite photoelectron escape depth and the band structure. The extracted width of the spectral function (inverse of the photohole life time) near the K point is, beyond the maximum phonon energy, approximately proportional to the energy as expected from the linear density of states near the Fermi energy. The upper bound for the electron-phonon coupling constant is about 0.2, a much smaller value than the previously reported one.

AB - We obtained the spectral function of very high quality natural graphite single crystals using angle-resolved photoelectron spectroscopy. A clear separation of nonbonding and bonding bands and asymmetric lineshape are observed. The asymmetric line shapes are well accounted for by the finite photoelectron escape depth and the band structure. The extracted width of the spectral function (inverse of the photohole life time) near the K point is, beyond the maximum phonon energy, approximately proportional to the energy as expected from the linear density of states near the Fermi energy. The upper bound for the electron-phonon coupling constant is about 0.2, a much smaller value than the previously reported one.

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Effect of linear density of states on the quasiparticle dynamics and small electron-phonon coupling in graphite

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