Professor Fabian Essler

Josephson oscillations in split one-dimensional Bose gases

(2020)

Authors:

Yuri D van Nieuwkerk, Jörg Schmiedmayer, Fabian HL Essler

A systematic $1/c$-expansion of form factor sums for dynamical correlations in the Lieb-Liniger model

(2020)

Authors:

Etienne Granet, Fabian HL Essler

Integrability of $1D$ Lindbladians from operator-space fragmentation

(2020)

Authors:

Fabian HL Essler, Lorenzo Piroli

Finite temperature and quench dynamics in the Transverse Field Ising Model from form factor expansions

SciPost Physics SciPost 9:3 (2020) 033

Authors:

E Granet, M Fagotti, Fhl Essler

Abstract:

We consider the problems of calculating the dynamical order parameter two-point function at finite temperatures and the one-point function after a quantum quench in the transverse field Ising chain. Both of these can be expressed in terms of form factor sums in the basis of physical excitations of the model. We develop a general framework for carrying out these sums based on a decomposition of form factors into partial fractions, which leads to a factorization of the multiple sums and permits them to be evaluated asymptotically. This naturally leads to systematic low density expansions. At late times these expansions can be summed to all orders by means of a determinant representation. Our method has a natural generalization to semi-local operators in interacting integrable models.

On the low-energy description for tunnel-coupled one-dimensional Bose gases

SciPost Physics SciPost 9:2 (2020) 25

Authors:

Fabian HL Essler, Yuri D van Nieuwkerk

Abstract:

We consider a model of two tunnel-coupled one-dimensional Bose gases with hard-wall boundary conditions. Bosonizing the model and retaining only the most relevant interactions leads to a decoupled theory consisting of a quantum sine-Gordon model and a free boson, describing respectively the antisymmetric and symmetric combinations of the phase fields. We go beyond this description by retaining the perturbation with the next smallest scaling dimension. This perturbation carries conformal spin and couples the two sectors. We carry out a detailed investigation of the effects of this coupling on the non-equilibrium dynamics of the model. We focus in particular on the role played by spatial inhomogeneities in the initial state in a quantum quench setup.