Page 221 - Handbook of Lasers
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86. Chen, B. -U. and Tang, C. L., Nd-glass thin-film waveguide in an active medium for Nd
thin-film laser, Appl. Phys. Lett. 28, 435 (1976).
87. Lei, N., Xu, B., and Jiang, Z., Ti:sapphire laser pumped Nd:tellurite glass laser, Optics
Commun. 127, 263 (1996).
3+
88. Chaoyu, Y., Jiangde, P., and Bingkun, Z., Tunable Nd -doped fiber ring laser, Electron.
Lett. 25, 101 (1989).
89. Schweizer, T., Hewak, D. W., Payne, D. N., Jensen, T., and Huber, G., Rare-earth doped
chalcogenide glass laser, Electron. Lett. 32, 666 (1996).
90. Stone, J. and Burrus, C. A., Neodymium-doped fiber lasers: room temperature cw operation
with an injection laser pump, Appl. Opt. 13, 1256 (1974).
91. Poole, S. B., Payne, D. N., and Fermann, M. E., Fabrication of low-loss optical fibers
containing rare-earth ions, Electron. Lett. 21, 737 (1985).
92. Mears, R. J., Reekie, L., Poole, S. B., and Payne, D. N., Neodymium-doped silica single-
mode fiber lasers, Electron. Lett. 21, 738 (1985).
93. Mackechnie, C. J., Barnes, W. L., Hanna, D. C., and Townsend, J. E., High power ytterbium
3+
(Yb )-doped fibre laser operating in the 1.12 mm region, Electron. Lett. 29, 52 (1993).
94. Carter, S.F., Szebesta, D., Davey, S.T., Wyatt, R., Brierley, M.C., and France, P.W.,
3+
Amplification at 1.3 mm in a Pr -doped single-mode fluorozirconate fiber, Electron. Lett.
27, 628 (1991).
95. Kozlovsky, W. J., Fan, T. Y., and Byer, R. L., Diode-pumped continuous-wave Nd:glass
laser, Optics Lett. 11, 788 (1986).
96. Whitley, T., Wyatt, R., Szebesta, D., Davey, S., and Williams, J. R., Quarter-watt output at
1.3 mm from a praseodymium-doped fluoride fibre amplifier pumped with a diode-pumped
Nd:YLF laser, IEEE Phot. Tech. Lett. 5, 399 (1993).
97. Durteste, Y., Monerie, M., Allain, J.Y., and Poignant, H., Amplification and lasing at 1.3
mm in praseodymium-doped fluorozirconate fibers, Electron. Lett. 27, 626 (1991).
98. Schweizer, T., Samson, B. N., Moore, R. C., Hewak, D. W., and Payne, D. N., Rare-earth
doped chalcogenide glass fibre laser, Electron. Lett. 33, 414 (1997).
3+
99. Zapata, L. E., Continuous-wave 25-W Nd :glass fiber bundle laser, J. Appl. Phys. 62,
3110 (1987).
100. Brierley, M., Carter, S., and France, P., Amplification in the 1300 nm telecommunications
window in a Nd-doped fluoride fiber, Electron. Lett. 26, 329 (1990).
3+
101. Miyajima, Y., Komuakai, T., and Sugawa, T., 1.31–1.36 mm optical amplification in Nd -
doped fluorozirconate fiber, Electron. Lett. 26, 194 (1990).
102. Ishikawa, E., Aoki, H., Yamashita, T., and Asahara, Y., Laser emission and amplication at
1.3 mm in neodymium-doped fluorophosphate fibres, Electron. Lett. 28, 1497 (1992).
103. Aoki, H., Maruyama, O., and Asahara, Y., Glass waveguide laser operated around 1.3 mm,
Electron. Lett. 26, 1910 (1990).
104. Hanson, F. and Imthurn, G., Efficient laser diode side pumped neodymium glass slab laser,
IEEE J. Quantum Electron. QE-24, 1811 (1988).
105. Miniscalco, W. J., Andrews, L. J., Thompson, B. A., Quimby, R. S., Vaca, L.J.B., and
Drexhage, M. G., 1.3 mm fluoride fiber laser, Electron. Lett. 24, 28 (1988).
106. Millar, C. A., Fleming, S. C., Brierley, M. C., and Hunt, M. H., Single transverse mode
operation at 1345 nm wavelength of a diode-laser pumped neodymium-ZBLAN multimode
fiber laser, IEEE Phot. Tech. Lett. 2, 415 (1990).
107. Brierley, M. C. and Millar, C. A., Amplification and lasing at 1350 nm in a neodymium
doped fluorozirconate fiber, Electron. Lett. 24, 438 (1988).
108. Grubb, S. G., Barnes, W. L., Taylor, E. R., and Payne, D. N., Diode-pumped 1.36 mm Nd-
doped fiber laser, Electron. Lett. 26, 121 (1990).
109. Yamashita, T., Nd- and Er-doped phosphate glass for fiber laser, SPIE Fiber Laser Sources
and Amplifiers, Vol. 1171, 291 (1989).
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