Highly-entangled stationary states from strong symmetries

• URL: http://arxiv.org/abs/2406.08567v2
• Date: Sat, 10 Aug 2024 10:55:27 GMT
• Title: Highly-entangled stationary states from strong symmetries
• Authors: Yahui Li, Frank Pollmann, Nicholas Read, Pablo Sala,
• Abstract summary: We find that strong non-Abelian conserved quantities can lead to highly entangled stationary states even for unital quantum channels. We prove that these apply to open quantum evolutions whose commutants, characterizing all strongly conserved quantities, correspond to either the universal enveloping algebra of a Lie algebra or to the Read-Saleur commutants.
• Score: 0.9172279381455911
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: We find that the presence of strong non-Abelian conserved quantities can lead to highly entangled stationary states even for unital quantum channels. We derive exact expressions for the bipartite logarithmic negativity, R\'enyi negativities, and operator space entanglement for stationary states restricted to one symmetric subspace, with focus on the trivial subspace. We prove that these apply to open quantum evolutions whose commutants, characterizing all strongly conserved quantities, correspond to either the universal enveloping algebra of a Lie algebra or to the Read-Saleur commutants. The latter provides an example of quantum fragmentation, whose dimension is exponentially large in system size. We find a general upper bound for all these quantities given by the logarithm of the dimension of the commutant on the smaller bipartition of the chain. As Abelian examples, we show that strong U($1$) symmetries and classical fragmentation lead to separable stationary states in any symmetric subspace. In contrast, for non-Abelian SU$(N)$ symmetries, both logarithmic and R\'enyi negativities scale logarithmically with system size. Finally, we prove that while R\'enyi negativities with $n>2$ scale logarithmically with system size, the logarithmic negativity (as well as generalized R\'enyi negativities with $n<2$) exhibits a volume law scaling for the Read-Saleur commutants. Our derivations rely on the commutant possessing a Hopf algebra structure in the limit of infinitely large systems, and hence also apply to finite groups and quantum groups.

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