Effect of many-body interaction on synthetic Anderson Metal-Insulator transition in kicked quantum gases

Quasiperiodic kicked rotor is equivalent to a 3D disordered system that shows Anderson metal-insulator transition, which has been observed in experiments using atomic matter wave. Recent experimental observations of many-body dynamical delocalization in kicked quantum gases have offered a new platform for studying many-body effects in disordered systems formed by synthetic momentum space lattices. We study the effect of mean-field interaction on the dynamics of quasiperiodic kicked rotors and the resulting 3D Metal-Insulator transition. We compare the theoretical simulation with ongoing experimental results.