Electro-optically spectrum switchable, multiwavelength optical parametric oscillators based on aperiodically poled lithium niobate

Abstract: We report the first fast switchable multiwavelength optical parametric oscillator based on aperiodic optical superlattice technology. The constructed aperiodically poled lithium niobate (APPLN) integrates the functionalities of two quasi-phase-matching devices on a chip to work simultaneously as an electro-optic (EO) switchable notch-like filter and a multiline optical parametric downconverter. When such an APPLN is built in a 1064-nm-pumped optical resonator system, we achieve the oscillation of dual signals … Show more

“…Lithium niobate is an ideal material for nonlinear photonics due to its exceptional nonlinear-optic properties, wide transparency range, and ferroelectric properties. 1,2 Periodically poled lithium niobate (PPLN) waveguides, where the periodic domain inversion allows for a quasi-phase-matched (QPM) second-order nonlinear [χ ð2Þ ] process, have been widely used in wavelength conversion, 3,4 optical parametric oscillation, [5][6][7][8] photon pair generation, [9][10][11][12] and supercontinuum generation. [13][14][15] As the strength of the nonlinear interaction is proportional to the optical intensity, the employment of high-contrast waveguides with strong optical confinement can greatly improve nonlinear optical efficiency.…”

Ultra-broadband and low-loss edge coupler for highly efficient second harmonic generation in thin-film lithium niobate

“…Lithium niobate is an ideal material for nonlinear photonics due to its exceptional nonlinear-optic properties, wide transparency range, and ferroelectric properties. 1,2 Periodically poled lithium niobate (PPLN) waveguides, where the periodic domain inversion allows for a quasi-phase-matched (QPM) second-order nonlinear [χ ð2Þ ] process, have been widely used in wavelength conversion, 3,4 optical parametric oscillation, [5][6][7][8] photon pair generation, [9][10][11][12] and supercontinuum generation. [13][14][15] As the strength of the nonlinear interaction is proportional to the optical intensity, the employment of high-contrast waveguides with strong optical confinement can greatly improve nonlinear optical efficiency.…”

Ultra-broadband and low-loss edge coupler for highly efficient second harmonic generation in thin-film lithium niobate

Photoinduced conductivity during sub-bandgap illumination in periodically poled MgO:LiNbO3 with charged domain walls

Electro-Optic Spectral Switching and Q-switching in a Dual-Wavelength Nd:YVO4 Laser Based on Aperiodically Poled Lithium Niobate