Authors
Wen-Tao Xu, Rui-Zhen Huang
Published in
Physical review letters. Volume 134. Issue 14. Pages 146503. Apr 11, 2025.
Abstract
The disorder parameter, defined as the expectation value of the symmetry transformation acting on a subsystem, can be used to characterize symmetric phases as an analogy to detecting spontaneous symmetry-breaking phases using local order parameters. In a dual picture, disorder parameters actually detect spontaneous symmetry breaking of higher-form symmetries. In this Letter, we show that the nonlocal disorder parameters can be conveniently and efficiently evaluated using infinite projected entangled pair states. Moreover, we propose a finite correlation length scaling theory of the disorder parameter within the quantum critical region and validate the scaling theory with variationally optimized infinite projected entangled pair states. We find from the finite correlation length scaling that the disorder parameter satisfies perimeter law at a critical point, i.e., it decays exponentially with the boundary size of the subsystem, indicating spontaneous higher-form symmetry breaking at the critical point of the dual model.
PMID:
40279586
Bibliographic data and abstract were imported from PubMed on 26 Apr 2025.
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