Tensor renormalization group approach to the O(2) models via symmetry-twisted partition functions

Abstract

We investigate critical phenomena in the O(2) models using symmetry-twisted partition functions that can be efficiently computed within the tensor renormalization group framework. We first demonstrate, taking the three-dimensional model as an example, that symmetry-twisted partition functions detect the spontaneous breaking of global continuous symmetry. We then consider the same model in two dimensions, where the Berezinskii--Kosterlitz--Thouless (BKT) transition occurs. Since symmetry-twisted partition functions directly provide the helicity modulus at a finite twist angle, we determine the BKT transition point. These results are presented based on Ref.~Akiyama:2026dzg. Finally, in addition to the original paper~Akiyama:2026dzg, we apply this approach to the two-dimensional generalized O(2) model and confirm that it successfully identifies the phase transitions between the ferromagnetic and nematic phases, as well as between the nematic and paramagnetic phases.

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