Professor Fabian Essler

Entanglement growth and correlation spreading with variable-range interactions in spin and fermionic tunnelling models

(2016)

Authors:

Anton S Buyskikh, Maurizio Fagotti, Johannes Schachenmayer, Fabian Essler, Andrew J Daley

Mobile impurity approach to the optical conductivity in the Hubbard chain

(2016)

Authors:

Thomas Veness, Fabian HL Essler

Optical conductivity of the Hubbard chain away from half filling

(2016)

Authors:

Alexander C Tiegel, Thomas Veness, Piet E Dargel, Andreas Honecker, Thomas Pruschke, Ian P McCulloch, Fabian HL Essler

Mobile impurity approach to the optical conductivity in the Hubbard chain

Physical Review B American Physical Society 93:20 (2016) 205101

Authors:

Thomas Veness, Fabian HL Essler

Abstract:

We consider the optical conductivity in the one dimensional Hubbard model in the metallic phase close to half filling. In this regime most of the spectral weight is located at frequencies above an energy scale Eopt that tends towards the optical gap in the Mott insulating phase for vanishing doping. Using the Bethe Ansatz we relate Eopt to thresholds of particular kinds of excitations in the Hubbard model. We then employ a mobile impurity models to analyze the optical conductivity for frequencies slightly above these thresholds. This entails generalizing mobile impurity models to excited states that are not highest weight with regards to the SU(2) symmetries of the Hubbard chain, and that occur at a maximum of the impurity dispersion.

Prethermalization and Thermalization in Models with Weak Integrability Breaking

Physical Review Letters American Physical Society (APS) 115:18 (2015) 180601

Authors:

Bruno Bertini, Fabian HL Essler, Stefan Groha, Neil J Robinson