Page 179 - Handbook of Lasers

P. 179

1107. Schaffers, K. I., Page, R. H., Beach, R. J., Payne, S. A., and Krupke, W. F., Gain
3+
measurements of Dy -doped LaCl : a potential 1.3 mm optical amplifier for tele-
3
communications, OSA Trends in Optics and Photonics on Advanced Solid State Lasers,
Vol. 1, Payne, S. A. and Pollack, C. R., Eds., Optical Society of America, Washington, DC
(1996), p. 469; Page, R. H. et al. Dy-doped chlorides as gain media for 1.3 mm tele-
communications amplifiers, J. Lightwave Technol. 15, 786 (1997).
1108. Shkadarevich, A. P., Recent advances in tunable solid state lasers, in Tunable Solid State
Lasers, Shand, M. L. and Jenssen, H. P., Eds., Optical Society of America, Washington,
DC (1989), p. 66.
1109. Capobianco, J. A., Cormier, G., Moncourgé, R., Manaa, H., and Bettinelli, M., Gain
2
measurements of Mn 5+ (3d ) doped Sr (PO ) Cl and Ca PO Cl, Appl. Phys. Lett. 60, 163
4 3
5
2
4
(1992).
1110. Brannon, P. J., X-ray induced optical gain in Cr,Nd:GSGG, OSA Proc. Adv. Solid State
Lasers, Chai, B. H. T. and Payne, S. A., Eds., 24, 232 (1995).
1111. Cashmore, J. S., Hooker, S. M., and Webb, C. E., Vacuum ultraviolet gain measurements in
3+
optically pumped LiYF :Nd , Appl. Phys. B 64, 293 (1997).
4
1112. Zhong, G. Z. and Bryant, F. J., Laser phenomena in DCEL of ZnS:Cu:Nd:Cl thin films,
Solid State Commun. 39, 907 (1981).
1113. Powell, R. C., Quarles, G. L., Martin, J. J., Hunt, C. A., and Sibley, W. A., Stimulated
2+
emission and tunable gain from Rh ion lin RbCaF crystals, Opt. Lett. 10, 212 (1985).
3
1114. Loiacono, G. M., Shone, M. F., Mizell, G., Powell, R. C., Quarles, G. J., and Elonadi, B.,
Tunable single pass gain in titanium-activated lithium germanium oxide, Appl. Phys. Lett.
48, 622 (1986).
1115. Pazzi, G. P, Baldecchi, M. G., Fabeni, P., Linari, R., Ranfagni, A., Agresti, A., Cetica, M.,
and Simpkin, D. J., Amplified spontaneous emission in doped alkali-halides, SPIE 369,
338 (1982).
1116. Nagli, L. E. and Plyovin, I. K., Induced recombination emission of activated alkali halide
crystals, Opt. Spectrosc. (USSR) 44, 79 (1978).
1117. Haley, L. V. and Koningstein, J. A., Time resolved stimulated fluorescence of the uranyl
ion in the mineral metaautunite, J. Phys. Chem. Solids 44, 431 (1983).
1118. Moulton, P. F., Recent advances in solid-state laser materials, in Materials Research
Society Symposium Proceedings 24, 393 (1984).
1119. Kaminskii, A. A., Pavlyuk, A. A., Klevtsov, P. V. et al., Stimulated radiation of
3+
monoclinic KY(WO ) and KGd(WO ) with Ln ions, Inorg. Mater. (USSR) 13, 582
4 2
4 2
(1977).
1120. Kaminskii, A. A., Fedorov, V. A., and Mochalov, I. V., New data on the three-micron
3+
3+
lasing of Ho and Er ions in aluminates having the perovskite structure, Dokl. Akad.
Nauk SSSR 254, 604 (1980).
1121. Schweizer, T., Jensen, T., Heumann, E., and Huber, G., Spectroscopic properties and diode
pumped 1.6 mm laser performance in Yb-codoped Er:Y Al O and Er:Y SiO , Opt.
12
5
5
3
2
Commun. 118, 557 (1995).
1122. Kaminskii, A. A., Fedorov, V. A., and Mochalov, I. V., New data on the three-micron
3+
3+
lasing of Ho and Er ions in aluminates having the perovskite structure, Sov. Phys.
Dokl. 25, 744 (1980).
1123. Hughes, D. W., Majdabadi, A., Barr, J. R. M., and Hanna, D. C., FM mode-locked, laser-
diode-pumped La 1-x Nd MgAl O laser, Appl. Optics 32, 5958 (1993).
19
x
11
2+
1124. Wagner, G., Carrig, T. J., Page, R. H. et al., Continuous-wave broadly tunable Cr :ZnSe
laser, Opt. Lett. 24, 19 (1999).
1125. Li, C., Moncorgé, R., Souriau, J. C., Borel, C., and Wyon, Ch., Room temperature cw laser
3+
3+
action of Y SiO :Yb , Er at 1.57 mm, Opt. Commun. 107, 61 (1994).
5
2
1126. Rothacher, Th., Lüthy, W., and Weber, H. P., Diode pumping and laser properties of
Yb:Ho:YAG, Opt. Commun. 155, 68 (1998).
1127. Jaque, D., Capmany, J., and Garciá Solé, J., Continuous wave laser radiation at 669 nm from
3+
a self-frequency-doubled laser of YAl (BO ) :Nd , Appl. Phys. Lett. 74, 1788 (1999).
3 4
3
©2001 CRC Press LLC

174 175 176 177 178 179 180 181 182 183 184