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109. Bagdasarov, Kh. S., Danilov, V. P., Murina, T. M., Novikov, E. G., Prokhorov, A. M.,
3+
Semenov, V. B., and Fedorov, E. A., Tunable flashlamp-pumped Al O :Ti laser, Sov.
3
2
Tech. Phys. Lett. 13, 152 (1987).
110. Schulz, P. A., Single-frequency Ti:Al O ring laser, IEEE J. Quantum Electron. 24, 1039
2
3
(1988).
111. Lacovara, P., Esterowitz, L., and Allen, R., Flash-lamp-pumped Ti:Al O laser using
3
2
fluorescent conversion, Opt. Lett. 10, 273 (1985).
112. Esterowitz, L. and Allen, R., Stimulated emission from flashpumped Ti:Al O , in Tunable
2
3
Solid State Lasers, Proc. Int. Conf., Vol. 47, Hammerling, P., Budgor, A. B., and Pinto, A.,
Eds., Springer-Verlag, New York (1985), p. 73.
113. Alshuler, G. B., Karasev, V. B., Kondratyuk, N. V., Krugiik, G. S., Okishev, A. V.,
Skripko, G. A., Urbanovich, V. S., and Shkadarevich, A. P., Generation of ultrashort
3+
pulses in a synchronously pumped Ti laser, Sov. Tech. Phys. Lett. 13, 324 (1987).
114. Fox, A. M., Maciel, A. C., and Ryan, J. F., Efficient CW performance of a Co:MgF laser
2
operating at 1.5—2.0 mm, Opt. Commun. 59, 142 (1986).
115. Kaminskii, A. A., Sobolev, B. P., Sarkisov, S. E., Denlsenko, G. A., Ryabchenkov, V. V.,
Fedorov, V. A., and Uvarova, T. V., Physicochemical aspects of the preparation
3+
spectroscopy, and stimulated emission of single crystals of BaLn F -Ln , Inorg. Mater.
2 8
(USSR) 18, 402 (1982).
116. Marin, V. I., Nikitin, V. I., Soskin, M. S., and Khizhnyak, A. I., Superluminescence emitted
3+
by YAG:Nd crystals and stimulated emission due to weak transitions, Sov. J. Quantum
Electron. 5, 732 (1975).
117. Nebdaev, N. Ya., Petrenko, R. A., Piskarskas, A. S., Sirutajtis, V. A., Smil'gyavichyus, V.
I., and Yuozapavlchus, A. S., Peculiarities of stimulated emission of picosecond pulses
from the potassium gadolinium tungstate laser, Ukr. Fiz. Zh. 33, 1165 (1988) (in
Russian).
118. Bukin, G. V., Volkov, S. Yu., Matrosov, V. N., Sevast'yanov, B. K., and Timoshechkin, M.
3+
I., Stimulated emission from alexandrite (BeAl O :Cr ), Sov. J. Quantum Electron. 8,
4
2
671 (1978).
119. Weber, M. J., Bass, M., and Demars, G. A., Laser action and spectroscopic properties of
3+
Er in YAlO , J. Appl. Phys. 42, 301 (1971).
3
120. Sevastyanov, B. K., Remigailo, Yu. I., Orekhova, V. P., Matrosov, V. P., Tsvetkov, E. G.,
3+
and Bukin, G. V., Spectroscopics and lasing properties of alexandrite (BeAl O :Cr ),
4
2
Sov. Phys. Dokl. 26, 62 (1981).
121. Walling, J. C., Jenssen, H. P., Morris, R. C., O'Dell, E. W., and Peterson, O. G., Tunable-
3+
laser performance in BeAl O :Cr , Opt. Lett. 4, 182 (1979).
4
2
122. Walling, J. C. and Peterson, O. G., High gain laser performance in alexandrite, IEEE J.
Quantum Electron. QE-16, 119 (1980).
123. Buchert, J., Katz, A., and Alfano, R. R., Laser action in emerald, IEEE J. Quantum
Electron. QE-19, 1477 (1983).
124. Sevast'yanov, B. K., Bagdasarov, Kh. S., Pasternak, L. B., Volkov, S. Yu., and Drekhova,
3+
V. P., Stimulated emission from Cr ions in YAG crystals, JETP Lett. 17, 47 (1973).
125. McClung, F. J., Schwarz, S. E., and Meyers, F. J., R line optical maser action in ruby, J.
2
Appl. Phys. 33, 3139 (1962).
126. Collins, R. J., Nelson, D. F., Schawlow, A. L., Bond, W., Garrett, C. G. B., and Kaiser, W.,
Coherence, narrowing, directionality, and relaxation oscillations in the light emission
from ruby, Phys. Rev. Lett. 5, 303 (1960).
127. Nelson, D. F. and Boyle, W. S., A continuously operating ruby optical maser, Appl.
Optics, 1, 181 (1962).
128. Birnbaum, M., Tucker, A. W., and Fincher, C. L., CW ruby laser pumped by an argon ion
laser, IEEE J. Quantum Electron. QE-13, 808 (1977).
129. Kaminskii, A. A., Butaeva, T. I., Ivanov, A. O. et al., New data on stimulated emission of
3+
3+
crystals containing Er and Ho ions, Sov. Tech. Phys. Lett. 2, 308 (1976).
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