J.P. de Sandro scite author profile

We report laser action in a Ti-diffused LiNbO(3) waveguide doped with trivalent Yb ions by thermal indiffusion. Lasing was observed at 1008, 1030, and 1060 nm with thresholds as low as 15-mW launched pump power. We reduced photorefractivity, which initially permitted only intermittent lasing, by annealing the sample in wet O(2). The annealed sample lased continuously in a cavity formed by high-ref lectivity mirrors; however, with a 7% output coupler the output power exhibited instabilities. The greatest value of the output power observed under these conditions was consistent with a slope efficiency of ~16% with respect to absorbed power.

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Non-photorefractive CW Tm-indiffused Ti:LiNbO₃ waveguide laser operating at room temperature

Sandro

Jones

Shepherd

et al. 1996

IEEE Photon. Technol. Lett.

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Greater than 20%-efficient frequency doubling of 1532-nm nanosecond pulses in quasi-phase-matched germanosilicate optical fibers

et al. 1999

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We fabricated second-order nonlinear gratings in D-shaped germanosilicate fibers, using thermal poling and periodic electrodes defined by standard photolithography. These gratings, which are up to 75 mm long, were used for efficient quasi-phase-matched frequency doubling of 1.532-mum nanosecond pulses from a high-power erbium-doped fiber amplifier. Average second-harmonic powers as high as 6.8 mW and peak powers greater than 1.2 kW at 766 nm were generated, with average and peak conversion efficiencies as high as 21% and 30%, respectively.

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J.P. de Sandro

Large mode area photonic crystal fibre

Properties of photonic crystal fiber and the effective index model

Channel waveguide laser at 1 μm in Yb-indiffused LiNbO_3

Non-photorefractive CW Tm-indiffused Ti:LiNbO₃ waveguide laser operating at room temperature

Greater than 20%-efficient frequency doubling of 1532-nm nanosecond pulses in quasi-phase-matched germanosilicate optical fibers

Contact Info

Product

Resources

About

J.P. de Sandro

Large mode area photonic crystal fibre

Properties of photonic crystal fiber and the effective index model

Channel waveguide laser at 1 μm in Yb-indiffused LiNbO_3

Non-photorefractive CW Tm-indiffused Ti:LiNbO3 waveguide laser operating at room temperature

Greater than 20%-efficient frequency doubling of 1532-nm nanosecond pulses in quasi-phase-matched germanosilicate optical fibers

Contact Info

Product

Resources

About

Non-photorefractive CW Tm-indiffused Ti:LiNbO₃ waveguide laser operating at room temperature