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Efficient optically pumped NH3 amplifiers in the 10–12 μm region

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Abstract

A pulsed transversely excited CO2 laser operating on the 9R(30) transition is used to optically pump mixtures of NH3 in buffer gas. A simple oscillator/amplifier system characterizes the performance of the NH3 amplifier in the 11 μm region. Small-signal gain coefficients of >10%/cm measured on the aQ(3,3) transition at 10.7 μm, while pump conversion efficiencies of ∼50% are shown to occur under saturation conditions. The NH3 laser system is described by a rate-equation model, which is validated by comparison with experiment over a wide range of operating conditions. Measurements are made for NH3 concentrations ranging from 0.05 to 0.2%, with Ar, N2, and He buffer gas pressures from 170 to 700 Torr, and for gas temperatures from 200 to 300 K. Optically pumped NH3 is shown to be a versatile and efficient system for the amplification of mid-infrared radiation.

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  1. P. H. Beckwith & J. Reid

    Present address: Lumonics Inc., 105 Schneider Rd., K2K 1Y3, Kanata, Ontario, Canada

Authors and Affiliations

  1. Department of Engineering Physics, McMaster University, L8S 4M1, Hamilton, Ontario, Canada

    J. D. White, D. M. Bruce, P. H. Beckwith & J. Reid

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  1. J. D. White
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  2. D. M. Bruce
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  3. P. H. Beckwith
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  4. J. Reid
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White, J.D., Bruce, D.M., Beckwith, P.H. et al. Efficient optically pumped NH3 amplifiers in the 10–12 μm region. Appl. Phys. B 50, 345–354 (1990). https://doi.org/10.1007/BF00325085

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  • DOI: https://doi.org/10.1007/BF00325085

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