このエントリーをはてなブックマークに追加
ID 14220
file
creator
subject
phonon-mediated pairing interactions
Coulomb screening
electron-phonon system
overscreening
spin and charge fluctuations
exotic superconductors
spin-triplet pairing
heavy fermion superconductors
organic superconductors
ruthenate superconductors
NDC
Physics
description
Effects of short-range correlations on the Coulomb screening, the phonons, and the pairing interactions are examined in electron-phonon systems. First, we derive a model Hamiltonian of Coulomb interactions which includes both the long-range part vq and the short-range part U. It is found from the expression of the dielectric function that the strong on-site correlations weaken the Coulomb screening. Secondly, we examine the screened phonons and the interaction mediated by phonons. In a consistent picture, wed erive an expression of the effective interaction which includes (1) the screened Coulomb interactions, (2) the pairing interactions mediated by phonons, and (3) the effective interactions mediated by spin and charge fluctuations. It is rewritten in a form of a summation of (a) the effective interactions of the pure Hubbard model without the long-range Coulomb interactions, and (b) the phonon-mediated interactions plus screened Coulomb interactions with corrections due to both Uandvq. Thirdly, we derive an effective Hamiltonian an alogous to the BCS Hamiltonian. Fourthly, for some typical values of parameters, we obtain the ground state phase diagrams. It is found that spin-triplet superconductivity mediated by phonons occurs when the short-range electron correlations are sufficiently strong, and the Coulomb screening is sufficiently weak. We estimatet he orders of the transition temperatures when thet riplet superconductivity occurs. The obtained values are realistic for existing candidates of the triplet superconductors as the order of the magnitudes. The possible relevance of the phonon-mediated interactions to the heavy fermion superconductor UPt3 and the layered superconductors such (TMTSF)2X and Sr2RuO4 are briefly discussed.
date of issued
2004-03
language
eng
nii type
Preprint
HU type
Preprints
text version
author
relation is version of URL
http://arxiv.org/abs/cond-mat/0305382
department
Graduate School of Advanced Sciences of Matter