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Trapped Ion Quantum Computing
Quantum Thermodynamics
Long-range entanglement from spontaneous non-onsite symmetry breaking
arXiv
Authors: Zhehao Zhang, Yabo Li, Tsung-Cheng Lu
Year
2024
Paper ID
37022
Status
Preprint
Abstract Read
~2 min
Abstract Words
219
Citations
N/A
Abstract
We explore the states of matter arising from the spontaneous symmetry breaking (SSB) of mathbb{Z}2 non-onsite symmetries. In one spatial dimension, we construct a frustration-free lattice model exhibiting SSB of a non-onsite symmetry, which features the coexistence of two ground states with distinct symmetry-protected topological (SPT) orders. We analytically prove the two-fold ground-state degeneracy and the existence of a finite energy gap. Fixing the symmetry sector yields a long-range entangled ground state that features long-range correlations among non-invertible charged operators. We also present a constant-depth measurement-feedback protocol to prepare such a state with a constant success probability in the thermodynamic limit, which may be of independent interest. Under a symmetric deformation, the SSB persists up to a critical point, beyond which a gapless phase characterized by a conformal field theory emerges. In two spatial dimensions, the SSB of 1-form non-onsite symmetries leads to a long-range entangled state (SPT soup) - a condensate of 1d SPT along any closed loops. On a torus, there are four such locally indistinguishable states that exhibit algebraic correlations between local operators, which we derived via a mapping to the critical O(2) loop model. This provides an intriguing example of `topological quantum criticality'. Our work reveals the exotic features of SSB of non-onsite symmetries, which may lie beyond the framework of topological holography (SymTFT).
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- This paper contributes to the Quantum Thermodynamics research area in the Quantum Articles archive.
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- We explore the states of matter arising from the spontaneous symmetry breaking (SSB) of mathbbZ2 non-onsite symmetries.
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