Entanglement provides characterizing features of true topological order in two-dimensional systems. We show how entanglement of disconnected partitions defines topological invariants for one-dimensional topological superconductors. These order parameters quantitatively capture the entanglement that is possible to distill from the ground-state manifold and are thus quantized to 0 or log2. Their robust quantization property is inferred from the underlying lattice gauge theory description of topological superconductors and is corroborated via exact solutions and numerical simulations. Transitions between topologically trivial and nontrivial phases are accompanied by scaling behavior, a hallmark of genuine order parameters, captured by entanglement critical exponents. These order parameters are experimentally measurable utilizing state-of-the-art techniques.
Entanglement topological invariants for one-dimensional topological superconductors / Fromholz, P.; Magnifico, G.; Vitale, V.; Mendes-Santos, T.; Dalmonte, M.. - In: PHYSICAL REVIEW. B. - ISSN 2469-9950. - ELETTRONICO. - 101:8(2020), pp. 085136.085136-1-085136.085136-12. [10.1103/PhysRevB.101.085136]
Entanglement topological invariants for one-dimensional topological superconductors
Magnifico, G.
;
2020
Abstract
Entanglement provides characterizing features of true topological order in two-dimensional systems. We show how entanglement of disconnected partitions defines topological invariants for one-dimensional topological superconductors. These order parameters quantitatively capture the entanglement that is possible to distill from the ground-state manifold and are thus quantized to 0 or log2. Their robust quantization property is inferred from the underlying lattice gauge theory description of topological superconductors and is corroborated via exact solutions and numerical simulations. Transitions between topologically trivial and nontrivial phases are accompanied by scaling behavior, a hallmark of genuine order parameters, captured by entanglement critical exponents. These order parameters are experimentally measurable utilizing state-of-the-art techniques.| File | Dimensione | Formato | |
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