B 1g phonon anomaly driven by Fermi surface instability at intermediate temperature in YBa2Cu3O7-δ

Abstract

We performed temperature- and doping-dependent high-resolution Raman spectroscopy experiments on YBa2Cu3O7-δ to study B 1g phonons. The temperature dependence of the real part of the phonon self-energy shows a distinct kink at T=T B1g above T c due to softening, in addition to the one due to the onset of the superconductivity. T B1g is clearly different from the pseudogap temperature with a maximum in the underdoped region. The region between T B1g and T c resembles that of superconducting fluctuation or charge density wave order. While the true origin of the B 1g phonon softening is not known, we can attribute it to a gap on the Fermi surface due to an electronic order. Our results may reveal the role of the B 1g phonon not only in the superconducting state but also in the intertwined orders in multilayer copper oxide high-T c superconductors.