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Intersubband transitions in molecular-beam-epitaxy-grown wide band gap II-VI semiconductors
Journal of Vacuum Science & Technology B Microelectronics and Nanometer Structures Processing Measurement and Phenomena
◽
10.1116/1.2720859
◽
2007
◽
Vol 25
(3)
◽
pp. 995
◽
Cited By ~ 4
Author(s):
A. Shen
◽
H. Lu
◽
M. C. Tamargo
◽
W. Charles
◽
I. Yokomizo
◽
...
Keyword(s):
Molecular Beam Epitaxy
◽
Band Gap
◽
Molecular Beam
◽
Wide Band
◽
Intersubband Transitions
◽
Wide Band Gap
Download Full-text
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References
Fabrication of wide-band-gap MgxZn1−xO quasi-ternary alloys by molecular-beam epitaxy
Applied Physics Letters
◽
10.1063/1.1923762
◽
2005
◽
Vol 86
(19)
◽
pp. 192911
◽
Cited By ~ 74
Author(s):
Hiroshi Tanaka
◽
Shigeo Fujita
◽
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◽
Band Gap
◽
Molecular Beam
◽
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◽
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Wide-band-gap ZnMgBeSe alloys grown onto GaAs by molecular beam epitaxy
Journal of Crystal Growth
◽
10.1016/s0022-0248(01)00621-2
◽
2001
◽
Vol 223
(4)
◽
pp. 461-465
◽
Cited By ~ 7
Author(s):
E. Tournié
◽
F. Vigué
◽
M. Laügt
◽
J.-P. Faurie
Keyword(s):
Molecular Beam Epitaxy
◽
Band Gap
◽
Molecular Beam
◽
Wide Band
◽
Wide Band Gap
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Molecular Beam Epitaxy-Grown Wide Band Gap II–VI Semiconductors for Intersubband Device Applications
Molecular Beam Epitaxy
◽
10.1016/b978-0-12-812136-8.00015-3
◽
2018
◽
pp. 327-341
Author(s):
Aidong Shen
Keyword(s):
Molecular Beam Epitaxy
◽
Band Gap
◽
Molecular Beam
◽
Wide Band
◽
Wide Band Gap
◽
Device Applications
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Molecular beam epitaxy of n-type ZnS: A wide band gap emitter for heterojunction PV devices
2012 38th IEEE Photovoltaic Specialists Conference
◽
10.1109/pvsc.2012.6318105
◽
2012
◽
Cited By ~ 8
Author(s):
Jeffrey Bosco
◽
Faisal Tajdar
◽
Harry Atwater
Keyword(s):
Molecular Beam Epitaxy
◽
Band Gap
◽
Molecular Beam
◽
Wide Band
◽
Wide Band Gap
Download Full-text
Gas‐source molecular beam epitaxy of wide‐band‐gap Zn1−xHgxSe (x=0–0.14)
Applied Physics Letters
◽
10.1063/1.113749
◽
1995
◽
Vol 66
(24)
◽
pp. 3337-3339
◽
Cited By ~ 10
Author(s):
K. Hara
◽
H. Machimura
◽
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◽
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◽
H. Kukimoto
◽
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Keyword(s):
Molecular Beam Epitaxy
◽
Band Gap
◽
Molecular Beam
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Wide Band
◽
Wide Band Gap
◽
Gas Source
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Growth of wide band gap wurtzite ZnMgO layers on (0001) Al2O3 by radical-source molecular beam epitaxy
Superlattices and Microstructures
◽
10.1016/j.spmi.2007.04.063
◽
2007
◽
Vol 42
(1-6)
◽
pp. 129-133
◽
Cited By ~ 23
Author(s):
A. El-Shaer
◽
A. Bakin
◽
M. Al-Suleiman
◽
S. Ivanov
◽
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◽
...
Keyword(s):
Molecular Beam Epitaxy
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Band Gap
◽
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Wide Band
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Wide band gap MgZnSSe grown on (001) GaAs by molecular beam epitaxy
Applied Physics Letters
◽
10.1063/1.113388
◽
1995
◽
Vol 66
(25)
◽
pp. 3462-3464
◽
Cited By ~ 14
Author(s):
B. J. Wu
◽
J. M. DePuydt
◽
G. M. Haugen
◽
G. E. Höfler
◽
M. A. Haase
◽
...
Keyword(s):
Molecular Beam Epitaxy
◽
Band Gap
◽
Molecular Beam
◽
Wide Band
◽
Wide Band Gap
Download Full-text
Zn1−yCdySe1−xTexquaternary wide band‐gap alloys: Molecular beam epitaxial growth and optical properties
Applied Physics Letters
◽
10.1063/1.105504
◽
1991
◽
Vol 59
(10)
◽
pp. 1206-1208
◽
Cited By ~ 22
Author(s):
Maria J. S. P. Brasil
◽
Maria C. Tamargo
◽
R. E. Nahory
◽
H. L. Gilchrist
◽
R. J. Martin
Keyword(s):
Optical Properties
◽
Band Gap
◽
Epitaxial Growth
◽
Molecular Beam
◽
Wide Band
◽
Wide Band Gap
◽
Molecular Beam Epitaxial
◽
Molecular Beam Epitaxial Growth
Download Full-text
Molecular beam epitaxy/atomic layer epitaxy growth processes of wide‐band‐gap II–VI compounds: Characterization of surface stoichiometry by reflection high‐energy electron diffraction
Journal of Vacuum Science & Technology A Vacuum Surfaces and Films
◽
10.1116/1.576910
◽
1990
◽
Vol 8
(2)
◽
pp. 997-1001
◽
Cited By ~ 23
Author(s):
T. Yao
◽
Z. Q. Zhu
◽
K. Uesugi
◽
S. Kamiyama
◽
M. Fujimoto
Keyword(s):
Molecular Beam Epitaxy
◽
Electron Diffraction
◽
Molecular Beam
◽
Wide Band
◽
Atomic Layer
◽
High Energy
◽
Atomic Layer Epitaxy
◽
High Energy Electron
◽
Wide Band Gap
Download Full-text
The influence of bulk nonradiative recombination in the wide band‐gap regions of molecular beam epitaxially grown GaAs‐AlxGa1−xAs DH lasers
Applied Physics Letters
◽
10.1063/1.90314
◽
1978
◽
Vol 33
(3)
◽
pp. 245-248
◽
Cited By ~ 54
Author(s):
W. T. Tsang
Keyword(s):
Band Gap
◽
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◽
Wide Band
◽
Nonradiative Recombination
◽
Wide Band Gap
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