A classification of invertible phases of bosonic quantum lattice systems in one dimension

Creators: Kapustin, Anton; Sopenko, Nikita; Yang, Bowen

Abstract

We study invertible states of 1D bosonic quantum lattice systems. We show that every invertible 1D state is in a trivial phase: after tensoring with some unentangled ancillas, it can be disentangled by a fuzzy analog of a finite-depth quantum circuit. If an invertible state has symmetries, it may be impossible to disentangle it in a way that preserves the symmetries, even after adding unentagled ancillas. We show that in the case of a finite unitary symmetry G, the only obstruction is an index valued in degree-2 cohomology of G. We show that two invertible G-invariant states are in the same phase if and only if their indices coincide.

Additional Information

© 2021 Published under an exclusive license by AIP Publishing. Submitted: 5 May 2021; Accepted: 25 July 2021; Published Online: 11 August 2021. We would like to thank P. Etingof and B. Simon for advice. We are also grateful to Y. Ogata for drawing our attention to an error in Lemma 4.1 in the original version of this paper. This research was supported, in part, by the U.S. Department of Energy, Office of Science, Office of High Energy Physics, under Award No. DE-SC0011632. A.K. was also supported by the Simons Investigator Award. B.Y. acknowledges the Caltech mathematics department for a graduate fellowship awarded in fall 2020.

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