Boundary state in an integrable quantum field theory out of equilibrium

We study a quantum quench of the mass and the interaction in the Sinh-Gordon model starting from a large initial mass and zero initial coupling. Our focus is on the determination of the expansion of the initial state in terms of post-quench excitations. We argue that the large energy profile of the...

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Veröffentlicht in:	Physics letters. B 2014-06, Vol.734, p.52-57
Hauptverfasser:	Sotiriadis, Spyros, Takacs, Gabor, Mussardo, Giuseppe
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Sprache:	eng
Schlagworte:	Asymptotic properties Boundaries Control systems Elementary particles Excitation Field theory Joining Regularization
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container_title	Physics letters. B
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description	We study a quantum quench of the mass and the interaction in the Sinh-Gordon model starting from a large initial mass and zero initial coupling. Our focus is on the determination of the expansion of the initial state in terms of post-quench excitations. We argue that the large energy profile of the involved excitations can be relevant for the late time behaviour of the system and common regularization schemes are unreliable. We therefore proceed in determining the initial state by first principles expanding it in a systematic and controllable fashion on the basis of the asymptotic states. Our results show that, for the special limit of pre-quench parameters we consider, it assumes a squeezed state form that has been shown to evolve so as to exhibit the equilibrium behaviour predicted by the Generalized Gibbs Ensemble.
doi_str_mv	10.1016/j.physletb.2014.04.058
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subjects	Asymptotic properties Boundaries Control systems Elementary particles Excitation Field theory Joining Regularization
title	Boundary state in an integrable quantum field theory out of equilibrium
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