Abstract
Stimulated Brillouin scattering in whispering gallery resonators has numerous potential applications. However, previously reported approaches are difficult to integrate and the Brillouin gain coefficient is small. We propose here a new approach to achieve giant forward stimulated Brillouin scattering (FSBS) and lasing on chip with double-disk microcavities made of silica glass. By considering the thickness of air gap to tailor optical forces especially radiation pressure in these double-disk microcavities, giant Brillouin gain enhancement can be realized in the intermode FSBS. The numerical simulation results indicate that for double-disk microcavity within the radius range of 50 μm, stimulated Brillouin scattering gain is ten times larger than that of single-disk microcavity up to 74.3 m−1W−1 with Rayleigh acoustic mode and 102 to 103 times larger up to 6361.19 m−1W−1 with symmetric Lamb acoustic mode. Correspondingly, the on-chip pump power threshold of Brillouin lasing can be reduced to 55 μW with the slope efficiency of 8.0%. Our proposed double-disk microcavities offer an effective and simple method to implement Brillouin lasing and can find versatile applications of acousto-optic interaction on all-integrated CMOS compatible chip.
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