期刊
PHYSICAL REVIEW B
卷 89, 期 7, 页码 -出版社
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevB.89.075119
关键词
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资金
- Caltech Institute for Quantum Information and Matter, a NSF Physics Frontier Center
- Gordon and Betty Moore Foundation
- MIT Pappalardo Fellowship in Physics
We study entanglement renormalization group transformations for the ground states of a spin model, called cubic code model H-A in three dimensions, in order to understand long-range entanglement structure. The cubic code model has degenerate and locally indistinguishable ground states under periodic boundary conditions. In the entanglement renormalization, one applies local unitary transformations on a state, called disentangling transformations, after which some of the spins are completely disentangled from the rest and then discarded. We find a disentangling unitary to establish equivalence of the ground state of H-A on a lattice of lattice spacing a to the tensor product of ground spaces of two independent Hamiltonians H-A and H-B on lattices of lattice spacing 2a. We further find a disentangling unitary for the ground space of H-B with the lattice spacing a to show that it decomposes into two copies of itself on the lattice of the lattice spacing 2a. The disentangling transformations yield a tensor network description for the ground state of the cubic code model. Using exact formulas for the degeneracy as a function of system size, we show that the two Hamiltonians H-A and H-B represent distinct phases of matter.
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