Coherent control of quantum and entanglement dynamics via periodic modulations in optomechanical semiconductor resonator coupled to quantum-dot excitons

We systematically study the influence of simultaneously modulating input laser intensity and quantum-dot (QD) resonance frequency on mean-field dynamics, fluctuation energy transfer entanglement in a optomechanical semiconductor resonator embedded with QD. show that modulation hybrid system can be engineered to attain desired values control among various degrees freedom. A remarkably high degree generated by only QD frequency. The interplay between two modulations leads decrease entanglement. Switching transition from low stationary large dynamical This investigation provides novel strategies coherently data signal storage quantum information processing networks.