Motional resonance enhanced artificial atomic spin-orbit coupling

Atomic spin-orbit coupling (SOC) represents an important type of synthetic gauge fields actively pursued in quantum simulation studies. Recently, different schemes based on pulsed or periodic modulating gradient magnetic field (GMF) are proposed and implemented to synthesize one dimensional (1D) SOC in a spinor atomic Bose-Einstein condensate (BEC). This study provides theoretical understanding and experimental confirmation that the strength of SOC is enhanced making use of motional resonance associated with atomic center of mass in a harmonic trap. In addition to enable extra tunability and flexibility of gradient magnetic field based schemes for synthesizing atomic SOC, the findings we present also shed light on experimental efforts towards synthesizing two-dimensional (2D) atomic SOC.