期刊
COMMUNICATIONS IN MATHEMATICAL PHYSICS
卷 385, 期 3, 页码 1245-1272出版社
SPRINGER
DOI: 10.1007/s00220-021-04057-3
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资金
- JSPS KAKENHI [16K05171]
- Grants-in-Aid for Scientific Research [16K05171] Funding Source: KAKEN
This paper focuses on the classification of SPT phases using Z(2) indices, introducing an index for unique gapped ground state phases with reflection symmetry and completing the generalization problem of the index by Pollmann et al. It is shown that the index is an invariant of the C-1 classification.
For the classification of SPT phases, defining an index is a central problem. In the famous paper (Pollmann et al. Phys Rev B 81:064439, 2010), Pollmann, Tuner, Berg, and Oshikawa introduced Z(2)-indices for injective matrix products states which have either Z(2) x Z(2) dihedral group (of p-rotations about x, y, and z-axes) symmetry, time-reversal symmetry, or reflection symmetry. The first two are on-site symmetries. In Ogata in A Z(2)-index of symmetry protected topological phases with time reversal symmetry for quantum spin chains. arXiv:1810.01045, an index for on-site symmetries, which generalizes the index in Pollmann et al. (2010), was introduced for general unique gapped ground state phases in quantum spin chains. It was proved that the index is an invariant of the C-1-classification of SPT phases. The index for the reflection symmetry, which is not an on-site symmetry, was left as an open question. In this paper, we introduce a Z(2)-index for the reflection symmetric unique gapped ground state phases, and complete the generalization problem of index by Pollmann et al. We also show that the index is an invariant of the C-1-classification.
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