We study the dynamics of an electro-optical transducer in the presence of a driving field and a probe field. The nano-electro-optomechanical system (NEOMS) consists of a cavity with a fixed mirror, which is coupled to a vibrating end mirror through an optomechanical coupling, whereas the Coulomb interaction couples the moving mirror with the other moving mirror. In the probe transmission field, four-wave mixing (FWM) is reported in the presence of two external driving fields on moving mirrors. We show that the four-wave mixing exhibits controlled dynamics by varying the amplitudes and phases of the external driving fields. We present a set of experimental parameters to realize the phenomenon in present-day laboratory experiments.

我们研究在存在驱动场和探测场的情况下电光换能器的动力学。纳米电光系统（NEOMS）由带有固定镜的腔组成，该腔通过光机耦合耦合到振动端镜，而库仑相互作用将移动镜与另一个移动镜耦合。在探针传输领域，据报道在移动镜上存在两个外部驱动场的情况下，四波混频（FWM）。我们表明，通过改变外部驱动场的振幅和相位，四波混频展现出受控的动力学。我们提出了一组实验参数以实现当今实验室实验中的现象。