Driven many-body systems exhibit diverse and complex dynamical behaviors. Here, we report the observation of Shapiro steps in periodically driven Josephson junctions between strongly interacting Fermi superfluids of ultracold atoms. The height and the width of the observed quantized plateaus in the current-potential characteristics mirror the external drive frequency and the junction nonlinear response. Direct measurements of the current-phase relationship showcase how Shapiro steps arise from the synchronization between the relative phase of the two reservoirs and the external drive. Such a mechanism is further supported by the detection of periodic phase-slippage processes, in the form of vortex-antivortex pairs. Our results are corroborated by a circuital model and numerical simulations. Our work may open prospects for studying emergent nonequilibrium dynamics in quantum many-body systems under external drives.
Shapiro steps in strongly-interacting Fermi gases / Del Pace, Giulia; Hernández-Rajkov, Diego; Singh, Vijay Pal; Grani, Nicola; Fernández, Marcia Frómeta; Nesti, Giulio; Seman, Jorge Amin; Inguscio, Massimo; Amico, Luigi; Roati, Giacomo. - In: SCIENCE. - ISSN 0036-8075. - 390:6778(2025), pp. 1125-1129. [10.1126/science.ads8885]
Shapiro steps in strongly-interacting Fermi gases
Del Pace, Giulia
;Inguscio, Massimo;
2025
Abstract
Driven many-body systems exhibit diverse and complex dynamical behaviors. Here, we report the observation of Shapiro steps in periodically driven Josephson junctions between strongly interacting Fermi superfluids of ultracold atoms. The height and the width of the observed quantized plateaus in the current-potential characteristics mirror the external drive frequency and the junction nonlinear response. Direct measurements of the current-phase relationship showcase how Shapiro steps arise from the synchronization between the relative phase of the two reservoirs and the external drive. Such a mechanism is further supported by the detection of periodic phase-slippage processes, in the form of vortex-antivortex pairs. Our results are corroborated by a circuital model and numerical simulations. Our work may open prospects for studying emergent nonequilibrium dynamics in quantum many-body systems under external drives.| File | Dimensione | Formato | |
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