Patent ID: 7881349

Claim:
An OPS-laser, comprising: an OPS-laser resonator having a longitudinal axis and including an OPS-chip, the OPS-chip including a mirror-structure surmounted by a semiconductor multilayer gain-structure, the resonator being formed by a plurality of mirrors, one of which is the mirror structure of the OPS-structure; an arrangement for delivering optical pump radiation to the OPS-chip such that radiation having a fundamental-wavelength of the gain-structure circulates in the laser when the optical pump radiation is delivered; a birefringent filter located in the laser resonator and arranged to select the fundamental wavelength from the gain-bandwidth of the gain-structure; a first birefringent, optically nonlinear crystal located in the laser resonator and arranged to generate second-harmonic wavelength radiation from the fundamental wavelength radiation; a second birefringent optically nonlinear crystal arranged to generate third-harmonic wavelength radiation from the fundamental wavelength radiation and the second-harmonic radiation; and wherein the second optically nonlinear crystal has a longitudinal axis and has entrance and exit faces thereof non-orthogonally inclined to the longitudinal axis thereof and wherein said entrance and exit faces are tilted in opposite directions with respect to the longitudinal axis such that the second optically nonlinear crystal has a truncated prismatic form, which causes the second optically nonlinear crystal to function as a polarizer for the fundamental-wavelength radiation, thereby minimizing interaction of the birefringence of the first optically nonlinear crystal with that of the birefringent filter and wherein the laser resonator is terminated by the mirror-structure of the OPS structure and an end-mirror and is folded by first, second and third fold-mirrors, the first optically nonlinear crystal being located between the first fold-mirror and the end-mirror, the second optically nonlinear crystal being located between the first fold-mirror and the second fold-mirror, the third-harmonic output radiation being output via the third fold-mirror and wherein the non-orthogonal inclination of the exit face of the truncated-prismatic second optically nonlinear crystal causes angular separation of the fundamental and third-harmonic radiations sufficient that centers of incidence locations of fundamental and third-harmonic radiations on the second and third fold mirrors are spaced apart by at least one beam-width of the fundamental and third-harmonic radiations.