Professor Fabian Essler

Observation of Complex Bound States in the Spin-1/2 Heisenberg XXZ Chain Using Local Quantum Quenches

PHYSICAL REVIEW LETTERS 108:7 (2012) ARTN 077206

Authors:

Martin Ganahl, Elias Rabel, Fabian HL Essler, HG Evertz

Observing complex bound states in the spin-1/2 Heisenberg XXZ chain using local quantum quenches

(2011)

Authors:

Martin Ganahl, Elias Rabel, Fabian HL Essler, Hans Gerd Evertz

Discrete Symmetry Breaking Transitions Between Paired Superfluids

(2011)

Authors:

MJ Bhaseen, S Ejima, FHL Essler, H Fehske, M Hohenadler, BD Simons

Large deviation function for the current in the open asymmetric simple exclusion process.

Phys Rev Lett 107:1 (2011) 010602

Authors:

Jan de Gier, Fabian HL Essler

Abstract:

We consider the one-dimensional asymmetric exclusion process with particle injection and extraction at two boundaries. The model is known to exhibit four distinct phases in its stationary state. We analyze the current statistics at the first site in the low and high density phases. In the limit of infinite system size, we conjecture an exact expression for the current large deviation function.

Quantum quench in the transverse-field Ising chain.

Phys Rev Lett 106:22 (2011) 227203

Authors:

Pasquale Calabrese, Fabian HL Essler, Maurizio Fagotti

Abstract:

We consider the time evolution of observables in the transverse-field Ising chain after a sudden quench of the magnetic field. We provide exact analytical results for the asymptotic time and distance dependence of one- and two-point correlation functions of the order parameter. We employ two complementary approaches based on asymptotic evaluations of determinants and form-factor sums. We prove that the stationary value of the two-point correlation function is not thermal, but can be described by a generalized Gibbs ensemble (GGE). The approach to the stationary state can also be understood in terms of a GGE. We present a conjecture on how these results generalize to particular quenches in other integrable models.