Ultrabroadband second-harmonic generation via spatiotemporal-coupled phase matching

【摘要】 We propose a spatially chirped quasi-phase-matching(QPM) scheme that enables ultrabroadband second-harmonic-generation(SHG) by using a fan-out QPM grating to frequency-convert a spatially chirped fundamental wave. A “zerodispersion” 4f system maps the spectral contents of ultrabroadband fundamental onto different spatial coordinates in the Fourier plane, where the fundamental is quasi-monochromatic locally in picosecond duration, fundamentally canceling high-order phase mismatch. A fan-out QPM grating characterized by a linear variation of the poling period along the transverse direction exactly supports the QPM of the spatially chirped beam. We theoretically demonstrate the SHG of an 810-nm,12.1-fs pulse into a 405-nm, 10.2-fs pulse with a conversion efficiency of 77%.更多还原

【Abstract】 We propose a spatially chirped quasi-phase-matching(QPM) scheme that enables ultrabroadband second-harmonic-generation(SHG) by using a fan-out QPM grating to frequency-convert a spatially chirped fundamental wave. A “zerodispersion” 4f system maps the spectral contents of ultrabroadband fundamental onto different spatial coordinates in the Fourier plane, where the fundamental is quasi-monochromatic locally in picosecond duration, fundamentally canceling high-order phase mismatch. A fan-out QPM grating characterized by a linear variation of the poling period along the transverse direction exactly supports the QPM of the spatially chirped beam. We theoretically demonstrate the SHG of an 810-nm,12.1-fs pulse into a 405-nm, 10.2-fs pulse with a conversion efficiency of 77%.更多还原