School of Electronic and Optical Engineering,Nanjing University of Science and Technology,Nanjing 210094 We demonstrate a form of induced transparency enabled by the large gradient force between one optical and two mechanical modes.We tune the frequency of the mechanical flapping mode into resonance with the mechanical breathing mode to obtain the inteal mechanical coupling.Compared with all-photonic physical systems,the quantum optomechanical system exhibits a significantly longer lifetime.Electromagnetically induced transparency (EIT),which is based on destructive quantum interference,is an interesting phenomenon where a control laser induces a narrow spectral transparency window for a weak probe laser beam.When this generic EIT effect was first observed in an atomic gas,[1] its relevance in non-linear optics and optical (quantum) information processing was quickly recognized.In particular,the rapid variation of the refractive index concomitant with the opening of the transparency window gives rise to a dramatic reduction of the group velocity of a propagating optical pulse.[2,3]