The Effects of Pressure on the Structural, Electronic, and Lattice Dynamical Properties of FeSe Superconductor
Motivated by the experimental huge enhancement of the superconducting transition temperature T c in FeSe superconductor under high pressure, we perform first-principles calculations of the evolutions of structural, electronic, and lattice dynamical properties of FeSe at varying hydrostatic pressures...
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Veröffentlicht in: | Journal of low temperature physics 2015-03, Vol.178 (5-6), p.355-366 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | Motivated by the experimental huge enhancement of the superconducting transition temperature
T
c
in FeSe superconductor under high pressure, we perform first-principles calculations of the evolutions of structural, electronic, and lattice dynamical properties of FeSe at varying hydrostatic pressures up to 8 GPa. The pressure response is anisotropic with a larger compressibility along
c
-axis. At ambient pressure, Fermi surface nesting between hole and electron pockets induces spin density wave (SDW) order at the vector (
π
,
π
, 0) with a collinear antiferromagnetic structure. With the increase of pressure, the Fermi surface nesting is reduced, and therefore the SDW is suppressed, which could not enhance superconductivity based on the spin-fluctuation scenario. For the phonon dispersion, the bands have blue-shift except for the modes around 100 cm
-
1
, indicating hardening of the vibration modes in a wide frequency range. Furthermore, the electron–phonon coupling constant and the corresponding
T
c
by McMillan equation are calculated. However, there is no obvious enhancement of
T
c
under pressure, which further rules out the conventional phonon-mediated superconductivity of FeSe. Maybe the local magnetic moment plays an important role for the superconductivity and enhancement of
T
c
under pressure. |
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ISSN: | 0022-2291 1573-7357 |
DOI: | 10.1007/s10909-014-1253-y |