Local unitary transformation, long-range quantum entanglement, wave function renormalization, and topological order
Massachusetts Institute of Technology · University of California, Santa Barbara
Abstract
Two gapped quantum ground states in the same phase are connected by an adiabatic evolution which gives rise to a local unitary transformation that maps between the states. On the other hand, gapped ground states remain within the same phase under local unitary transformations. Therefore, local unitary transformations define an equivalence relation and the equivalence classes are the universality classes that define the different phases for gapped quantum systems. Since local unitary transformations can remove local entanglement, the above equivalence/universality classes correspond to pattern of long-range entanglement, which is the essence of topological order. The local unitary transformation also allows us…
Citation impact
- FWCI
- 15.42
- Percentile
- 100%
- References
- 65
Authors
3Topics & keywords
- Quantum entanglement
- Unitary transformation
- Unitary state
- Topology (electrical circuits)
- Tensor product
- Physics
- Mathematics
- Quantum mechanics