Page 313 - Handbook of Lasers
P. 313
263. Ravid, A., Cinader, G., and Zussman, A., Optically pumped laser action in double-
heterostructure HgCdTe grown by metalorganic chemical deposition on a CdTe substrate,
J. Appl. Phys. 74, 15 (1993).
264. Million, A., Colin, T., Ferret, P., Zanattan, J. P., Bouchot, P., Destéfanis, G. L., and Bablet,
J., HgCdTe double heterostructure for infrared injection laser, J. Cryst. Growth 127, 291
(1993).
265. Bleuse, J., Magnea, N., Pautrat, J. L., and Mriette, H., Cavity structure effects on CdHgTe
photopumped heterostructure lasers, Semicond. Sci. Technol. 8, SC266 (1993).
266. Ravid, A., Sher, A., Cinader, G., and Zussman, A., Optically pumped laser action and
photoluminescence in HgCdTe layer grown on (211) CdTe by metalorganic chemical vapor
deposition, J. Appl. Phys. 73, 7102 (1993).
267. Grillo, D. C., Han, J., Ringle, M., Hua, G., Gunshor, R. L., Kelkar, P., Kozlov, V., Jeon, H.,
and Nurmikko, A. V., Blue ZnSe quantum-well diode laser, Electron. Lett. 30, 2131 (1994).
268. Waag, A., Fischer, F., Schüll, K. et al., Laser diodes based on beryllium-chalcogenides,
Appl. Phys. Lett. 70, 280 (1997).
269. Gaines, J. M., Crenten, R. R., Haberern, K. W., Marshall, T., Mensz, P., and Petruzzello, J.,
Blue-green injection lasers containing pseudomorphic Zn Mg -S Se cladding layers
1-x x y 1-y
and operating up to 394 K, Appl. Phys. Lett. 62, 2462 (1993).
270. Nakayama, N., Itoh, S., Ohata, T., Nakano, K., Okuyama, H., Ozawa, M., Ishibashi, A., Ikeda,
M., and Mori, Y., Room temperature continuous operation of blue-green laser diodes,
Electron. Lett. 29, 1488 (1993).
271. Yamada, Y., Masumoto, Y., Mullins, J. T., and Taguchi, T., Ultraviolet stimulated emission
and optical gain spectra in Cd Zn S-ZnS strained-layer superlattices, Appl. Phys. Lett.
x 1-x
61, 2190 (1992).
272. Nakanichi, K., Suemune, I., Fujii, Y., Kuroda, Y., and Yamanishi, M., Extremely-low-
threshold and high-temperature operation in a photopumped ZnSe/ZnSSe blue laser, Appl.
Phys. Lett. 59, 1401 (1991).
273. Taguchi, T., Onodera, C., Yamada, Y., and Masumoto, Y., Band offsets in CdZnS/ZnS
strained-layer quantum well and its application to UV laser diode, Jpn. J. Appl. Phys. 32,
L1308 (1993).
274. Ozanyan, K. B., Nicholls, J. E., O'Neill, M., May, L., Hogg, J. H. C., Hagstom, W. E., Lunn,
B., and Ashenford, D. E., Spectroscopic evidence for the excitonic lasing mechanism in
ultraviolet ZnS/ZnCdS multiple quantum well lasers, Appl. Phys. Lett. 69, 4230 (1996).
275. Le, H. Q., Arias, J. M., Zandian, M., Zucca, R., and Liu, Y.-Z., High-power diode-laser-
pumped midwave infrared HgCdTe/CdZnTe quantum-well lasers, J. Appl. Phys. 65, 810
(1994).
276. Bleuse, J., Magnea, N., Ulmer, L., Pautrat, J. L., and Mriette, H., Room-temperature laser
emission near 2 mm from an optically pumped HgCdTe separate-confinement
heterostructure, J. Cryst. Growth 117, 1046 (1992).
277. Bonnet-Gemard, J., Bleuse, J., Magnea, N., and Pautrat, J. L., Emission wavelength and
cavity design dependence of laser behaviour in HgCdTe heterostructures, J. Cryst. Growth
159, 613 (1996).
278. Bouchut, P., Destefanis, G., Bablet, J., Million, A., Colin, T., and Ravetto, M., Mesa stripe
transverse injection laser in HgCdTe, J. Appl. Phys. 61, 1561 (1992).
279. Flatte’, M. E., Hasenberg, T. C., Olesberg, J. T., Anson, S. A., Boggess, T. F., Yan, C., and
McDaniel, D. L. Jr., III-V interband 5.2 mm laser operating at 185 K, Appl. Phys. Lett. 71,
3764 (1997).
280. Feit, Z., Kostyk, D., Woods, R. J., and Mak, P., Molecular beam epitaxy-grown separate
confinement buried heterostructure PbEuSeTe-PbTe diode lasers, IEEE Phot. Technol.
Lett. 7, 1403 (1995).
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