The Superconducting Transition due to the spontaneous Interlayer Loop Current fluctuations

Abstract: Loop currents, as an orbital magnetism, have been proposed as a possible fluctuation mechanism for superconducting pairing, which always remains elusive. Here, we investigate the role of an interlayer loop current fluctuation in mediating superconductivity using an unbiased bilayer $t-J_{\perp}-V$ model via sign-problem-free projector quantum Monte Carlo simulations. The model spontaneously generates the interlayer loop current by breaking time-reversal and translational symmetries, favored by interlayer Coulomb repusion. With hole doping, the loop current is rapidly suppressed, while its fluctuations give rise to an interlayer $s$-wave superconductivity. Our results establish a phase diagram to demonstrate a superconducting transition due to the interlayer loop current fluctuations. It also provides possible insights into some physics related to bilayer nickelates, with which it shares a similar structure and a large interlayer spin exchange.