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Topological phases with long-range interactions

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posted on 2023-08-05, 08:15 authored by Michael Foss-Feig, Zhe-Xuan Gong, Alexey V. Gorshkov, Anzi Hu, Mohammad F. Maghrebi, Michael L. Wall

Topological phases of matter are primarily studied in systems with short-range interactions. In nature, however, non-relativistic quantum systems often exhibit long-range interactions. Under what conditions topological phases survive such interactions, and how they are modified when they do, is largely unknown. By studying the symmetry-protected topological phase of an antiferromagnetic spin-1 chain with 1/rα interactions, we show that two very different outcomes are possible, depending on whether or not the interactions are frustrated. While non-frustrated long-range interactions can destroy the topological phase for α≲3, the topological phase survives frustrated interactions for all α>0. Our conclusions are based on strikingly consistent results from large-scale matrix-product-state simulations and effective-field-theory calculations, and we expect them to hold for more general interacting spin systems. The models we study can be naturally realized in trapped-ion quantum simulators, opening the prospect for experimental investigation of the issues confronted here.

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Joint Quantum Institute; University of Maryland College Park; American University (Washington, D.C.); University of Colorado Boulder

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http://hdl.handle.net/1961/auislandora:63622

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