Collective Modes at a Disordered Quantum Phase Transition

Collective Modes at a Disordered Quantum Phase Transition

We study the collective excitations, i.e., the Goldstone (phase) mode and the Higgs (amplitude) mode, near the superfluid–Mott glass quantum phase transition in a two-dimensional system of disordered bosons. Using Monte Carlo simulations as well as an inhomogeneous quantum mean-field theory with Gau...

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Veröffentlicht in:Physical review letters 2020-07, Vol.125 (2), p.1-027002, Article 027002
Hauptverfasser: Puschmann, Martin, Crewse, Jack, Hoyos, José A., Vojta, Thomas
Format: Artikel
Sprache:eng
Schlagworte:
Bosons
Computer simulation
Fluids
Many body interactions
Mean field theory
Phase transitions
Superfluidity
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Zusammenfassung:We study the collective excitations, i.e., the Goldstone (phase) mode and the Higgs (amplitude) mode, near the superfluid–Mott glass quantum phase transition in a two-dimensional system of disordered bosons. Using Monte Carlo simulations as well as an inhomogeneous quantum mean-field theory with Gaussian fluctuations, we show that the Higgs mode is strongly localized for all energies, leading to a noncritical scalar response. In contrast, the lowest-energy Goldstone mode undergoes a striking delocalization transition as the system enters the superfluid phase. We discuss the generality of these findings and experimental consequences, and we point out potential relations to many-body localization.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.125.027002