Fusion of one-dimensional gapped phases and their domain walls
- Creators
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Stephen, David T.1, 2
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Chen, Xie2
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1.
University of Colorado Boulder
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2.
California Institute of Technology
Abstract
Finite depth quantum circuits provide an equivalence relation between gapped phases. Moreover, there can be nontrivial domain walls either within the same gapped phase or between different gapped phases, whose equivalence relations are given by finite depth quantum circuits in one lower dimension. In this paper, we use such unitary equivalence relations to study the fusion of one-dimensional gapped phases. In particular, we use finite depth circuits to fuse two gapped phases, local unitaries to fuse two domain walls, and a combination of both to fuse gapped phases with domain walls. This provides a concrete illustration of some simple aspects of the higher-category structure of gapped defects in a higher-dimensional trivial gapped bulk state.
Copyright and License
©2024 American Physical Society.
Acknowledgement
We are indebted to inspiring discussions with W. Ji, L. Kong, T. Lan, M. Levin, S.-H. Shao, N. Tantivasadakarn, R. Vanhove, X.-G. Wen, J. Zhao. D.T.S. and X.C. are supported by the Simons Collaboration on Ultra-Quantum Matter, which is a grant from the Simons Foundation (No. 651440 DTS and No. 651438 XC). X.C. is supported by the Simons Investigator Award (Award ID No. 828078), the Institute for Quantum Information and Matter at Caltech and the Walter Burke Institute for Theoretical Physics at Caltech.
Files
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Additional details
- Simons Foundation
- 651440
- Simons Foundation
- 651438
- Simons Foundation
- 828078
- California Institute of Technology
- Accepted
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2024-10-03Accepted
- Caltech groups
- Institute for Quantum Information and Matter, Walter Burke Institute for Theoretical Physics
- Publication Status
- Published