Abstract
Brillouin scattering, arising from the interaction between photons and acoustic phonons, is well-known for its narrow gain profile, imposing stringent requirements for Brillouin lasers. However, in crystalline whispering gallery mode (WGM) optical resonators, the circular phonon path leads to intriguing gain profiles for Brillouin scattering due to the strong dependence of the phase velocity of acoustic waves on the crystalline axes’ orientation. Here, we present a theoretical investigation of Brillouin gain profiles in crystalline WGMRs considering different tangential directions and angles. Various host crystals ranging from tetragonal, cubic, and trigonal crystal groups, including magnesium fluoride, calcium fluoride, barium fluoride, lithium fluoride, strontium fluoride, sapphire, and lithium niobate, are studied. Our findings reveal significant variations in Brillouin shift depending on the crystal and its orientation, with the frequency shift broadening ranging from MHz to GHz.
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