Entanglement asymmetry as a probe of symmetry breaking
- URL: http://arxiv.org/abs/2207.14693v2
- Date: Wed, 19 Apr 2023 15:46:10 GMT
- Title: Entanglement asymmetry as a probe of symmetry breaking
- Authors: Filiberto Ares, Sara Murciano, Pasquale Calabrese
- Abstract summary: In extended quantum systems, quantifying how much a symmetry is broken is intrinsically bound to the subsystem of interest.
We introduce a subsystem measure of symmetry breaking that we dub entanglement asymmetry.
We find, expectedly, that larger is the subsystem, slower is the restoration, but also the counterintuitive result that more the symmetry is initially broken, faster it is restored.
- Score: 0.0
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: Symmetry and symmetry breaking are two pillars of modern quantum physics.
Still, quantifying how much a symmetry is broken is an issue that has received
little attention. In extended quantum systems, this problem is intrinsically
bound to the subsystem of interest. Hence, in this work, we borrow methods from
the theory of entanglement in many-body quantum systems to introduce a
subsystem measure of symmetry breaking that we dub entanglement asymmetry. As a
prototypical illustration, we study the entanglement asymmetry in a quantum
quench of a spin chain in which an initially broken global $U(1)$ symmetry is
restored dynamically. We adapt the quasiparticle picture for entanglement
evolution to the analytic determination of the entanglement asymmetry. We find,
expectedly, that larger is the subsystem, slower is the restoration, but also
the counterintuitive result that more the symmetry is initially broken, faster
it is restored, a sort of quantum Mpemba effect, a phenomenon that we show to
occur in a large variety of systems.
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