Continuous wavelength tuning from 3.9–12 µm from an optical parametric oscillator based on orientation-patterned GaP grown on GaAs
Peter G. Schunemann, Kerr Johnson, C. Farrell, Luke Maidment, Yiwen Shi, Marius Rutkauskas, Derryck T. Reid
Abstract
We report for the first time nonlinear frequency conversion—specifically optical parametric oscillation—in OP-GaP layers grown by hydride vapor-phase epitaxy on 3-inch OP-GaAs templates. Continuous tuning with wavelength coverage from 3.9–12 µm was achieved by using stepped and fan-out gratings having periods from 18.0–35.2 µm, which propagated 150 µm of a 1.2-mm-thick layer before overgrowth. Anti-reflection-coated OP-GaP crystals were pumped at 1040 nm with an ultrafast Yb-fiber laser, yielding idler output powers up to 150 mW (60 mW) in spectra centered at a wavelength of 5.6 µm (10.7 µm).
Topics & Concepts
Materials scienceOpticsWavelengthOptical parametric oscillatorOptoelectronicsEpitaxyUltrashort pulseLaserLayer (electronics)PhysicsComposite materialAdvanced Fiber Laser TechnologiesPhotonic and Optical DevicesPhotorefractive and Nonlinear Optics