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I. Kikuma, M. Furukoshi (1977)
Melt growth of ZnSe crystals under argon pressureJournal of Crystal Growth, 41
H. Lipson (1977)
Impurity absorption in CVD ZnSe.Applied optics, 16 11
H. Manasevit, W. Simpson (1971)
The Use of Metal‐Organics in the Preparation of Semiconductor Materials II . II – VI CompoundsJournal of The Electrochemical Society, 118
K. Marsh, J. Savage (1974)
Infrared optical materials for 8–13 μm—current developments and future prospectsInfrared Physics, 14
J. Goela, R. Taylor (1988)
Monolithic material fabrication by chemical vapour depositionJournal of Materials Science, 23
T. Deutsch (1975)
Laser window materials — An overviewJournal of Electronic Materials, 4
A. Hilton (1973)
Infrared transmitting materialsJournal of Electronic Materials, 2
A. Aksenovskikh, A. Bryzgalov, V. Musatov, B. Slepchenko, L. Khalilov (1991)
STRUCTURE AND OPTICAL PROPERTIES OF POLYCRYSTALLINE ZINC SELENIDEInorganic Materials, 27
E.M. Voronkova, B.N. Grechushnikov, G.I. Distler, I.P. Petrov (1965)
Opticheskie materialy dlya infrakrasnoi tekhniki
J. Pautrat, N. Magnea, J. Faurie (1982)
The segregation of impurities and the self‐compensation problem in II‐VI compoundsJournal of Applied Physics, 53
H. Kimura, H. Komiya (1973)
Melt compositions of II–VI compounds during crystal growth in a high-pressure furnaceJournal of Crystal Growth, 20
P. Miles (1977)
Temperature dependence of multiphonon absorption in zinc selenide.Applied optics, 16 11
I. Ursu, L. Nistor, V. Teodorescu, S. Nistor, I. Mihăilescu, N. Kolesnikov, V. Konov, M. Kulakov, Yu Starodumov, N. Chapliev, V. Shub (1989)
Damage studies in cubic ZnSe single crystals grown from meltApplied Physics A, 48
B. Dutt, O. Kim, W. Spitzer (1977)
Free‐carrier absorption of n‐type ZnSe : AlJournal of Applied Physics, 48
P. Miles (1985)
High Transparency Infrared Materials: A Technology Update, 513
H. Hartmann, L. Hildisch, E. Krause, W. Möhling (1991)
Morphological stability and crystal structure of CVD-grown zinc selenideJournal of Materials Science, 26
M. Vladyko, V. Dernovskii, V. Tatarchenko (1986)
Polycrystalline zinc selenide
N.V. Karlov, E.V. Sisakyan (1980)
Optical Window Materials for CO2 LasersIzv. Akad. Nauk SSSR, Ser. Fiz., 44
B.S. Patel (1977)
Optical Suitability of Window Materials for Carbon Dioxide LasersAppl. Opt., 16
G. Petrovsky (1991)
Optical materials for infrared range of spectrum, 1540
G. Devyatykh, E. Gavrishchuk, V. Ikonnikov, P. Sennikov, É. Yashina (1998)
Optical nonuniformity of polycrystalline CVD ZnSeInorganic Materials, 34
N. Roenkov (1995)
Supersaturation in physical and chemical vapor depositionRussian Journal of Applied Chemistry, 68
A.D. Bronnikov, A.D. Val'kovskii (1983)
Transmitting Optical Elements for Commercial CO2 LasersIzv. Akad. Nauk SSSR, Ser. Fiz., 47
H. Nanba, K. Shibata, H. Osaka, F. Higuchi, M. Kikuchi, T. Miyata (1984)
Development of ZnSe optics for high-power CO2 lasers, 1984
(1999)
Handbook of Chemical Vapor Deposition
V. Blinov, E. Gavrishchuk, V. Galstyan, V. Zimogorskii, I. Karetnikov, N. Morozova, V. Plotnichenko (2001)
Effect of Oxygen Doping on the IR Transmission and Cathodoluminescence of ZnSeInorganic Materials, 37
B. Patel (1977)
Optical suitability of window materials for CO(2) lasers.Applied optics, 16 5
R. Bhargava (1982)
The role of impurities in refined ZnSe and other II VI semiconductorsJournal of Crystal Growth, 59
A. Fischer (1959)
Preparation and Properties of ZnS ‐Type Crystals from the MeltJournal of The Electrochemical Society, 106
T. Hodges Dean (1995)
Industrial Optics Manufacturers Challenged on Performance and CostLaser Focus World, 9
E. Gavrishchuk, P. Krupkin, L. Kuznetsov (1997)
Surface morphology of vapor-grown layersInorganic Materials, 33
G. Zissis, W. Wolfe (1985)
The Infrared Handbook
D.C. Harris (1992)
Diamond: the Ultimate Durable Infrared Window MaterialNaval Res. Rev., 3
E. Gavrishchuk, Yu. Salganskii, V. Sidorov (2001)
Effect of Reagent Concentrations on the Grain Size of Chemical-Vapor-Deposited ZnSeInorganic Materials, 37
P. Blanconnier, J. Hogrel, A. Jean‐Louis, B. Sermage (1981)
High‐purity ZnSe obtained by metalorganic chemical vapor deposition epitaxyJournal of Applied Physics, 52
W. Stutius (1978)
Organometallic vapor deposition of epitaxial ZnSe films on GaAs substratesApplied Physics Letters, 33
J. Pankove (1971)
Optical Processes in Semiconductors
I. Kirovskaya, E. Budanova (2001)
Preparation and Properties of ZnxCd1 – xSe Solid SolutionsInorganic Materials, 37
N. Morozova, E. Gavrishchuk, I. Karetnikov, V. Blinov, V. Zimogorskii, V. Galstyan, É. Yashina (2002)
ZnSe Luminescence at High Doping LevelsInorganic Materials, 38
T. Taguchi, B. Ray (1983)
Point defects in II–VI compoundsProgress in Crystal Growth and Characterization, 6
Data are summarized on the preparation and properties of polycrystalline ZnSe for passive IR elements. The influence of preparation conditions on the structure, optical properties, and mechanical strength of ZnSe is analyzed in detail. Particular attention is paid to the effect of impurities and intrinsic defects on the optical performance of ZnSe.
Inorganic Materials – Springer Journals
Published: Oct 6, 2004
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