D.K. Neumann scite author profile

By frequency-stabilizing the output from an Erbium fiber amplifier at 1580 nm to a high-finesse cavity (finesse ~6300) formed by two high-reflectance, low-loss, concave mirrors, we achieve 22.4+/-2.0 kW intracavity circulating power and 101+/-9 MW/cm(2) cw intracavity intensities on the surfaces of the mirrors. Repeated experiments show no damage to the mirrors' coating. In addition, small variations of the mirrors' radius of curvature are observed and measured by recording the cavity's transverse-mode range. The mirrors' 10 cm radius of curvature changes as function of laser intensity at a rate of 105 mum/(MW/cm(2)).

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2.3-kW continuous operation cryogenic Yb:YAG laser

Brasseur

Abeeluck

Awtry

et al. 2008

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High-power deuterium Raman laser at 632 nm

Brasseur¹,

Teehan²,

Roos³

et al. 2004

Appl. Opt.

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We demonstrate a continuous-wave deuterium Raman laser that generates more than 160 mW of Stokes output power despite severe thermal effects. This output power represents nearly an order-of-magnitude increase over any previously reported continuous-wave Raman laser and is the first such system to our knowledge that uses deuterium gas as the Raman medium. The high output power is achieved through careful consideration of the electronic feedback design, frequency actuators, and pump-laser intensity noise.

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Photochemical Production Of NO(A2Σ+) In Mixtures Of HN3 And 03

Neumann

Coombe²,

Ongstad³

et al. 1988

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D.K. Neumann

High power 7-GHz bandwidth external-cavity diode laser array and its use in optically pumping singlet delta oxygen

Damage threshold and surface distortion measurement for high-reflectance, low-loss mirrors to 100+ MW/cm2 cw laser intensity

2.3-kW continuous operation cryogenic Yb:YAG laser

High-power deuterium Raman laser at 632 nm

Photochemical Production Of NO(A2Σ+) In Mixtures Of HN3 And 03

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