Classification of gapped symmetric phases in one-dimensional spin systems
Massachusetts Institute of Technology · University of California, Santa Barbara · +1 more institution
Abstract
Quantum many-body systems divide into a variety of phases with very different physical properties. The questions of what kinds of phases exist and how to identify them seem hard, especially for strongly interacting systems. Here we make an attempt to answer these questions for gapped interacting quantum spin systems whose ground states are short-range correlated. Based on the local unitary equivalence relation between short-range-correlated states in the same phase, we classify possible quantum phases for one-dimensional (1D) matrix product states, which represent well the class of 1D gapped ground states. We find that in the absence of any symmetry all states are equivalent to trivial product states, which…
Citation impact
- FWCI
- 32.78
- Percentile
- 100%
- References
- 47
Authors
3Topics & keywords
- Unitary state
- Physics
- Quantum phases
- Homogeneous space
- Theoretical physics
- Symmetry (geometry)
- Topological order
- Equivalence class (music)