Quantum phases and transitions in spin chains with non-invertible symmetries

Chatterjee, Arkya; Aksoy, Ömer Mert; Wen, Xiao-Gang

doi:10.21468/scipostphys.17.4.115

SciPost Phys.

2024

DOI: 10.21468/scipostphys.17.4.115

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Quantum phases and transitions in spin chains with non-invertible symmetries

Arkya Chatterjee,

Ömer Mert Aksoy,

Xiao-Gang Wen

Abstract: Generalized symmetries often appear in the form of emergent symmetries in low energy effective descriptions of quantum many-body systems. Non-invertible symmetries are a particularly exotic class of generalized symmetries, in that they are implemented by transformations that do not form a group. Such symmetries appear in large families of gapless states of quantum matter and constrain their low-energy dynamics. To provide a UV-complete description of such symmetries, it is useful to construct lattice models th… Show more

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Realizing triality and $p$-ality by lattice twisted gauging in (1+1)d quantum spin systems

Lu,

Sun,

You

2024

SciPost Phys.

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In this paper, we study the twisted gauging on the (1+1)d lattice and construct various non-local mappings on the lattice operators. To be specific, we define the twisted Gauss law operator and implement the twisted gauging of the finite group on the lattice motivated by the orbifolding procedure in the conformal field theory, which involves the data of non-trivial element in the second cohomology group of the gauge group. We show the twisted gauging is equivalent to the two-step procedure of first applying the SPT entangler and then untwisted gauging. We use the twisted gauging to construct the triality (order 3) and pp-ality (order pp) mapping on the \mathbb{Z}_p× \mathbb{Z}_pℤp×ℤp symmetric Hamiltonians, where pp is a prime. Such novel non-local mappings generalize Kramers-Wannier duality and they preserve the locality of symmetric operators but map charged operators to non-local ones. We further construct quantum process to realize these non-local mappings and analyze the induced mappings on the phase diagrams. For theories that are invariant under these non-local mappings, they admit the corresponding non-invertible symmetries. The non-invertible symmetry will constrain the theory at the multicritical point between the gapped phases. We further give the condition when the non-invertible symmetry can have symmetric gapped phase with a unique ground state.

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Realizing triality and $p$-ality by lattice twisted gauging in (1+1)d quantum spin systems

Lu,

Sun,

You

2024

SciPost Phys.

View full text Add to dashboard Cite

show abstract

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Quantum phases and transitions in spin chains with non-invertible symmetries

Cited by 1 publication

References 134 publications

Realizing triality and $p$-ality by lattice twisted gauging in (1+1)d quantum spin systems

Realizing triality and $p$-ality by lattice twisted gauging in (1+1)d quantum spin systems

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