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1077. Young, C. G., A sun-pumped cw one-watt laser, Appl. Optics 5, 993 (1966).
1078. Arashi, H., Oka, Y., Sasahara, N., Kaimai. A., and Ishigame. M., A solar-pumped cw 18 W
Nd:YAG laser, Jap. J. Appl. Phys. 23, 1051 (1984).
1079. Kaminskii, A. A., New room-temperature diode-laser-pumped efficient quasi-cw and cw
3+
single-mode laser based on monoclinic BaY F :Nd crystal, Phys. Stat. Sol. (a) 137,
2 8
K61 (1993).
1080. Scott, B. P., Zhao, F., Chang, R. S. F., and Djeu, N., Upconversion-pumped blue laser in
Tm:YAG, Opt. Lett. 18, 113 (1993).
1081. Brede, R., Heumann, E., Roetke, J., Danger, T., Huber, G., and Chai, B., Green up-
conversion laser emission in Er-doped crystals at room temperature, Appl. Phys. Lett. 63,
2030 (1993).
1082. Xie, P. and Rand, S. C., Continuous-wave trio upconversion laser, Appl. Phys. Lett. 57,
1182 (1990).
1083. Macfarlane, R. M., Whittaker, E. A., and Lenth, W., Blue, green and yellow upconversion
lasing in Er:YLF using 1.5 mm pumping, Electron. Lett. 28, 2136 (1992).
4
1084. Xie, P. and Rand, S. C.,Visible cooperative upconversioon laser in Er:LiYF , Opt. Lett.
4
17, 1198 (1992); Xie, P. and Rand, S.C., Erratum, Opt. Lett. 17, 1822 (1992).
1085. Xie, P. and Rand, S. C., Continuous-wave mode-locked visible upconversion laser, Opt.
Lett. 17, 1116 (1992), Erratum, Opt. Lett. 17, 1822 (1992).
1086. McFarlane, R. A., Upconversion laser in BaY F :Er 5% pumped by ground-state and
2 8
excited-state absorption, J. Opt. Soc. Am. B 11, 871 (1994).
1087. Lenth, W. and Macfarlane, R. M., Excitation mechanisms for upconversion lasers, J.
Lumin. 45, 346 (1990).
1088. Hebert, T., Risk, W. P., Macfarlane, R. M., and Lenth, W., Diode-laser-pumped 551-nm
3+
upconversion laser in YLiF :Er , Proc. Adv. Sol. State Lasers, Vol. 6, Jenssen, H. J. and
4
Dube, G., Eds., Optical Society of America, Washington, DC (1990), p. 379.
3+
1089. Scheps, R., Er :YAlO upconversion laser, IEEE J. Quantum Electron. 30, 2914
3
(1994)., ibid. 31, 309 (1995).
1090. McFarlane, R. A., Spectroscopic studies and upconversion laser operation of BaY F :Er
2 8
5%, Proc. Adv. Sol. State Lasers, Vol. 13, Chase, L. L. and Pinto, A. A., Eds., Optical
Society of America, Washington, DC (1992), p. 275.
1091. Brede, R., Heumann, E., Danger, T., Huber, G., and Chai, B. H. T., Room temperature green
upconversion lasing in erbium-doped fluorides, OSA Proc. Adv. Solid State Lasers, Fan,
T. Y. and Chai, B. H. T., Eds., 20, 348 (1995).
3+
1092. Pollack, S. A. and Chang, D. B., Upconversion-pumped 2.8–2.9 mm lasing of Er ions in
garnets, J. Appl. Phys. 70, 7227 (1991).
4
1093. Pollack, S. A. and Chang, D. B., Upconversion-pumped population kinetics for I 13/2 and
3+
4 I 11/2 laser states of Er ion in several host crystals, Opt. Quantum Electron. 22, S75
(1992).
1094. Kaminskii, A. A., Today and tomorrow of laser crystal physics, Phys. Stat. Sol. (a) 148, 10
(1995).
3+
1095. Thrash, R. J. and Johnson, L. F., UV upconversion laser emission from Yb sensitized
3+
Tm in BaY F , OSA Proc. Adv. Solid State Lasers, Fan, T. Y. and Chai, B. H. T., Eds.,
2 2
20, 400 (1995).
1096. Thrash, R. J. and Johnson, L. F., in Compact Blue-Green Lasers, Techn. Digest. Ser.
Optical Society of America, Washington, DC (1992), p. 17.
1097. Antipenko, B. M., Voronin, S. P., and Privalova, T. A., New laser channels of the Tm 3+
ion, Opt. Spectrosc. (USSR) 68, 164 (1990).
1098. Antipenko, B. M., Dumbravyanu, R. V., Perlin, Yu. E., Raba, O. B., and Sukhareva, L. K.,
Spectroscopic aspects of the BaY F laser medium, Opt. Spectrosc. (USSR) 59, 337
2 8
(1985).
1099. Mak, A. A. and Antipenko, B. M., Rare earth converters of neodymium laser radiation, Zh.
Prikl. Spektrosk. 37, 1029 (1982).
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