Stable Many-Body Resonances in Open Quantum Systems

ABSTRACT

Periodically driven quantum many-body systems exhibit novel nonequilibrium states, such as prethermalization, discrete time crystals, and many-body localization. Recently, the general mechanism of fractional resonances has been proposed that leads to slowing the many-body dynamics in systems with both $ U(1)$ and parity symmetry. Here, we show that fractional resonance is stable under local noise models. To corroborate our finding, we numerically study the dynamics of a small-scale Bose–Hubbard model that can readily be implemented in existing noisy intermediate-scale quantum (NISQ) devices. Our findings suggest a possible pathway toward a stable nonequilibrium state of matter, with potential applications of quantum memories for quantum information processing.

DETAILS
  • Research Type Article
  • RESEARCH YEAR 2022
  • Journal Name Symmetry
  • Authors R. Peña, T. H. Kyaw, and G. Romero
  • DOI 10.3390/sym14122562