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Proliferation transitions from a topological phase in 2+1 dimensions

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arxiv 2603.00245 v2 pith:PNL2KJCB submitted 2026-02-27 cond-mat.str-el hep-th

Proliferation transitions from a topological phase in 2+1 dimensions

classification cond-mat.str-el hep-th
keywords transitiontheoryfieldtqftanyoncasesglobaloriginal
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We consider phase transitions out of a general topological phase in $2+1$ dimensions. We assume that the transition is triggered by a single Abelian anyon, which becomes light near the transition and whose worldlines proliferate after the transition. (This proliferation is often referred to as ``condensation.'') We describe the transition using a continuum field theory obtained by coupling the corresponding topological quantum field theory (TQFT) to a single complex scalar field associated with this anyon. With these assumptions, we find the most general relativistic field theory for such a transition. Even though for a given TQFT and a choice of anyon, there are infinitely many such field theories, the transition theory depends on only a single additional integer parameter. We analyze all these theories, their global symmetries, and their phases. In generic cases, the theory after the transition can be related to the original one via an Abelian hierarchy construction. In special cases, the theory after the transition is gapless, and with a particular deformation, it is related to the original TQFT by gauging an anomaly-free one-form global symmetry. We also explore the enrichment of this setup by a global U(1) symmetry. In some cases, enriching the original TQFT is incompatible with the full transition theory. Finally, we demonstrate our construction with many specific examples.

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Cited by 3 Pith papers

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    hep-th 2026-05 unverdicted novelty 7.0

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    hep-th 2026-05 unverdicted novelty 6.0

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    hep-th 2026-05 unverdicted novelty 4.0

    Framework using smeared boundary CFTs classifies gapped phases dual to massless RG flows, showing they often spontaneously break non-group-like symmetries via unusual module structures outside standard boundary critic...