Nematic confined phases in the U(1) quantum link model on a triangular lattice: Near-term quantum computations of string dynamics on a chip

D. Banerjee; S. Caspar; F. J. Jiang; J. H. Peng; U. J. Wiese

Journal ArticleOPEN ACCESS

Nematic confined phases in the U(1) quantum link model on a triangular lattice: Near-term quantum computations of string dynamics on a chip

Physical Review Research (2022) 4(2)

DOI: 10.1103/PhysRevResearch.4.023176

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Abstract

The U(1) quantum link model on the triangular lattice has two rotation-symmetry-breaking nematic confined phases. Static external charges are connected by confining strings consisting of individual strands with fractionalized electric flux. The two phases are separated by a weak first-order phase transition with an emergent, almost exact SO(2) symmetry. We construct a quantum circuit on a chip to facilitate near-term quantum computations of the nontrivial string dynamics.

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Banerjee, D., Caspar, S., Jiang, F. J., Peng, J. H., & Wiese, U. J. (2022). Nematic confined phases in the U(1) quantum link model on a triangular lattice: Near-term quantum computations of string dynamics on a chip. Physical Review Research, 4(2). https://doi.org/10.1103/PhysRevResearch.4.023176

Nematic confined phases in the U(1) quantum link model on a triangular lattice: Near-term quantum computations of string dynamics on a chip

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