Abstract
Gallium phosphide (GaP) has attracted much attention in nonlinear photonics because of its large nonlinear coefficients, high refractive index and large band gap. Different techniques have been proposed to enhance the linear and nonlinear process based on thin film gallium phosphide [1]. However, the difficulty to obtain thin crystalline films poses a challenge for nonlinear nanophotonics regarding the fabrication of designed resonant nanostructures from GaP.
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