Diagnosing Quantum Phases Using Long-Range Two-Site Quantum Resource Behaviors
Abstract
We propose and demonstrate that the behaviors of long-range, two-site quantum resources can effectively diagnose quantum phases. In an XX spin chain with symmetry-breaking quantum phase transitions, we reveal that the asymptotic and oscillating decay modes of quantum coherence or quantum discord, along with two-site distance, can identify two spin-liquid phases. Furthermore, based on our analytical results of spin correlation functions, we confirm the existence of long-range entanglement in the system and establish a connection between two-site entanglement and quantum phases. Additionally, for the extended Ising model with topological phase transitions, we find that coherence and quantum discord behaviors can also signify topological quantum phases. In particular, we discover the quantum resource freezing phenomenon, where topologically protected long-range quantum resources may have potential applications in quantum information processing.
Cite
@article{arxiv.2311.04514,
title = {Diagnosing Quantum Phases Using Long-Range Two-Site Quantum Resource Behaviors},
author = {Lin-Lin Su and Jun Ren and Wen-Long Ma and Z. D. Wang and Yan-Kui Bai},
journal= {arXiv preprint arXiv:2311.04514},
year = {2024}
}
Comments
4.5 pages, 4 figures plus the supplemental material