Anomalies in the velocity of sound of the two-dimensional compressible Hubbard model

Giovanni Sordi; Caitlin Walsh; Maxime Charlebois; Patrick Sémon; A.-M. S Tremblay

Anomalies in the velocity of sound of the two-dimensional compressible Hubbard model

ORAL

Abstract

The propagation of sound is a powerful tool to characterize phase transitions. We study the velocity of sound in the two-dimensional compressible Hubbard model at finite temperature with cluster dynamical mean-field theory. We find sharp anomalies in the velocity of sound as a function of the interaction strength and doping. We show that these anomalies are a signature of supercritical phenomena. They are concomitant with specific heat anomalies. We predict the existence of sound anomalies at the doping p* where the pseudogap ends in the normal state of hole-doped cuprates.

March 14, 2022, 11:24 AM – March 14, 2022, 11:36 AM

Publication: C. Walsh et al., unpublished (2021)

Presenters

Giovanni Sordi

Royal Holloway University of London, Royal Holloway Univ of London

Authors

Giovanni Sordi

Royal Holloway University of London, Royal Holloway Univ of London
Caitlin Walsh

Royal Holloway Univ of London
Maxime Charlebois

Université du Québec à Trois-Rivières
Patrick Sémon

Université de Sherbrooke
A.-M. S Tremblay

Universite de Sherbrooke, RQMP and Institut quantique, Universite de Sherbrooke, Université de Sherbrooke, RQMP & Institut quantique