Interaction-induced transition in the quantum chaotic dynamics of a disordered metal

ORAL

Abstract

We demonstrate that a weakly disordered metal with short-range interactions exhibits a transition in the quantum chaotic dynamics when changing the temperature or the interaction strength. For weak interactions, the system displays exponential growth of the out-of-time-ordered correlator (OTOC) of the current operator. The Lyapunov exponent of this growth is temperature-independent in the limit of vanishing interaction. With increasing the temperature or the interaction strength, the system undergoes a transition to a non-chaotic behaviour, for which the exponential growth of the OTOC is absent. We conjecture that the transition manifests itself in the quasiparticle energy-level statistics and also discuss ways of its explicit observation in cold-atom setups.

*This work has been supported financially by NSF-DMR 1613029, US-ARO contract No. W911NF1310172 (SVS) and U.S. Department of Energy BES-DESC0001911 and Simons Foundation (VMG). AVG and SVS were also supported by NSF QIS, AFOSR, NSF PFC at JQI, ARO MURI, ARO and ARL CDQI.

Presenters

  • Sergey Syzranov

    • Physics Department, University of California

Authors

  • Sergey Syzranov

    • Physics Department, University of California

  • Alexey Gorshkov

    • NIST -Natl Inst of Stds & Tech
    • JQI-NIST
    • Joint Quantum Institute and Joint Center for Quantum Information and Computer Science, NIST/University of Maryland
    • Joint Quantum Institute, NIST/University of Maryland

  • Victor Galitski

    • Joint Quantum Institute and Condensed Matter Theory Center, University of Maryland
    • Physics, JQI & CMTC, Univ of Maryland
    • University of Maryland
    • University of Maryland, College Park
    • Physics, University of Maryland
    • JQI, University of Maryland, College Park