Page 224 - Handbook of Lasers
P. 224

152.  Hanna, D. C., Percival, R. M., Perry, I. R., Smart, R. G., and  Tropper,  A.  C.,  Efficient
                               operation of an Yb-sensitized Er fiber laser pumped in 0.8 mm region, Electron. Lett. 24,
                               1068 (1988).
                         153.  Fermann, M. E., Hanna, D. C., Shepherd, D. P., Suni, P. J., and Townsend, J. E., Efficient
                               operation of an Yb-sensitized Er fiber laser at 1.56 mm, Electron. Lett. 24, 1135 (1988).
                         154.  Maker, G. T. and Ferguson, A. I., 1.56 mm Yb-sensitized Er fiber laser pumped by diode-
                               pumped Nd:YAG and Nd:YLF lasers, Electron. Lett. 24, 1160 (1988).
                                                                                             3+
                         155.  Wyatt, R., Ainslie, B.J., and Craig, S.P., Efficient operation of an array pumped Er -doped
                               silica fiber laser at 1.5 mm, Electron. Lett. 24, 1362 (1988).
                         156.  O'Sullivan, M.S., Chrostowski, J., Desurvire, E., and Simpson, J.R., High-power, narrow-
                               linewidth Er 3+ -doped fiber laser, Optics Lett. 14, 438 (1989).
                         157.  Massicott, J.F., Armitage, J.R., Wyatt, R., Ainslie, B.J., and Craig-Ryan, S.P., High gain,
                                                   3+
                               broad bandwidth 1.6 mm Er  doped silica fiber amplifier, Electron. Lett. 26, 1645 (1990).
                         158.  Kitagawa, T., Hattori, K., Shimizu, M., Ohmori, Y., and Kobayashi, M., Guided-wave laser
                               based on erbium-doped silica planar lightwave circuit, Electron. Lett. 27, 334 (1991).
                                                                                         3+
                         159.  Heumann, E., Ledig, M., Ehrt, D., and Seeber, W., CW laser action of Er  in double
                               sensitized fluoroaluminate glass at room temperature, Appl. Phys. Lett. 52, 255 (1988).
                         160.  Barnes, W. L. and Townsend, J. E., Highly tunable and efficient diode pumped operation of
                                 3+
                               Tm  doped fiber lasers, Electron. Lett. 26, 746 (1990).
                         161.  Sankawa, I., Izumita, H., Furukawa, S., and Ishihara, K., An optical fiber amplifier for wide-
                               band wavelength range around 1.65 mm, IEEE Phot. Tech. Lett. 2, 422 (1990).
                         162.  Smart, R. G., Carter, J. N., Hanna, D. C., and Tropper, A. C., Erbium doped fluorozirconate
                               fiber laser operating at 1.66 and 1.72 mm, Electron. Lett. 26, 649 (1990).
                         163.  Ghisler,  C.,  Pollnau,  M.,  Bunea,  G.,  Bunea,  M.,  Lüthy,  W.,  and  Weber,  H.  P.,  Up-
                               conversion cascade laser at 1.7 mm with simultaneous 2.7  mm lasing in erbium ZBLAN
                               fibre, Electron. Lett. 31, 373 (1995); Pollnau, M., Ghisler, C., Bunea, G., Bunea, M., Lüthy,
                               W., and Weber, H. P., 150 mW unsaturated output power at 3 mm from a single-mode-fiber
                               erbium cascade laser, Appl. Phys. Lett. 66, 3564 (1995); Pollnau, M., Spring, R., Ghisler,
                               C., Wittwer, S., Lüthy, W., and Weber, H. P., Efficiency of erbium 3-mm crystal and fiber
                               lasers, IEEE J. Quantum Electron. 32, 657 (1996).
                         164.  Hanna, C., Percival, R. M., Smart, R. G., and Tropper, A. C., Efficient and tunable operation
                               of a Tm-doped fiber laser, Opt. Commun. 75, 283 (1990).
                         165.  Percival, R. M., Szebesta, D., and Davey, S. T., Highly efficient and tunable operation of
                               two colour Tm-doped fluoride fibre laser, Electron. Lett. 28, 671 (1992).
                         166.  Gandy, H. W., Ginther, R. J., and Weller, J. F., Stimulated emission of Tm 3+  radiation in
                               silicate glass, J. Appl. Phys. 38, 3030 (1967).
                         167.  Esterowitz, L., Allen, R., Kintz, G., Aggarwal, I., and Ginther, R. J., Laser emission in Tm 3+
                                   3+
                               and Er -doped fluorozirconate glass at 2.25, 1.88, and 2.70 mm, in Conference on Lasers
                               and Electro-Optics Technical Digest Series, 7, Optical Society of America, Washington,
                               DC (1988), p. 318.
                         168.  Lincoln, J. R., Mackechnie, C. J., Wang, J., Brocklesby, W. S., Deol, R. S., Pearson, A.,
                               Hanna, D. C., and Payne, D. N., New class of fibre laser based on lead-germanate glass,
                               Electron. Lett. 28, 1021 (1992); Wang, J., Lincoln, J. R., Brocklesby, W. S., Deol, R. S.,
                               Mackechnie, C. J., Pearson, A., Tropper, A. C., Hanna, D. C., and Payne, D. N., Fabrication
                               and optical properties of lead-germanate glasses and a new class of optical fibers doped
                                     3+
                               with Tm , J. Appl. Phys. 73, 8066 (1993).
                         169.  Hanna, D. C., Percival, R. M., Perry, I. R., Smart, R. G., Suni, P. J., and Tropper, A. C.,
                               Continuous-wave oscillation of a monomode thulium-doped silica fiber laser,  Technical
                               Digest - Tunable solid State Laser Conference, Optical Society of America (1989), p. 350.
                         170.  Yamamoto, T., Miyajima, Y., and Komukai, T., 1.9 mm Tm-doped silica fibre laser pumped at
                               1.57 mm, Electron. Lett. 30, 220 (1994).






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