D-wave superconductivity in boson+fermion dimer models
Abstract
We present a slave-particle mean-field study of the mixed boson+fermion quantum dimer model introduced by Punk, Allais, and Sachdev [PNAS 112, 9552 (2015)] to describe the physics of the pseudogap phase in cuprate superconductors. Our analysis naturally leads to four charge e fermion pockets whose total area is equal to the hole doping p, for a range of parameters consistent with the t-J model for high temperature superconductivity. Here we find that the dimers are unstable to d-wave superconductivity at low temperatures. The region of the phase diagram with d-wave rather than s-wave superconductivity matches well with the appearance of the four fermion pockets. In the superconducting regime, the dispersion contains eight Dirac cones along the diagonals of the Brillouin zone.
Keywords
Cite
@article{arxiv.1606.04129,
title = {D-wave superconductivity in boson+fermion dimer models},
author = {Garry Goldstein and Claudio Chamon and Claudio Castelnovo},
journal= {arXiv preprint arXiv:1606.04129},
year = {2017}
}
Comments
12 pages, 3 figures