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Envelope-function approximation for nonrectangularHg1−xCdxTe superlattices
Physical Review B
◽
10.1103/physrevb.42.7042
◽
1990
◽
Vol 42
(11)
◽
pp. 7042-7049
◽
Cited By ~ 4
Author(s):
K. C. Hass
◽
D. J. Kirill
Keyword(s):
Function Approximation
◽
Envelope Function
Download Full-text
Related Documents
Cited By
References
Pseudospin-electric coupling for holes beyond the envelope-function approximation
Physical Review B
◽
10.1103/physrevb.102.075310
◽
2020
◽
Vol 102
(7)
◽
Author(s):
Pericles Philippopoulos
◽
Stefano Chesi
◽
Dimitrie Culcer
◽
W. A. Coish
Keyword(s):
Function Approximation
◽
Envelope Function
◽
Electric Coupling
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Numerically stable Hermitian secular equation for the envelope-function approximation for superlattices
Physical Review B
◽
10.1103/physrevb.54.11539
◽
1996
◽
Vol 54
(16)
◽
pp. 11539-11547
◽
Cited By ~ 24
Author(s):
Frank Szmulowicz
Keyword(s):
Function Approximation
◽
Secular Equation
◽
Envelope Function
Download Full-text
Envelope Function Approximation (EFA) Bandstructure Calculations for III-V Non-square Stepped Alloy Quantum Wells Incorporating Ultra-narrow (~5Å) Epitaxial Layers
Physica Scripta
◽
10.1238/physica.regular.061a00213
◽
2000
◽
Vol 61
(2)
◽
pp. 213-221
◽
Cited By ~ 8
Author(s):
K A Kaduki
◽
W Batty
Keyword(s):
Quantum Wells
◽
Function Approximation
◽
Envelope Function
◽
Epitaxial Layers
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Conduction band of Si-Ge_{x}Si_{1-x} superlattices using the envelope-function approximation
Physical Review B
◽
10.1103/physrevb.35.1380
◽
1987
◽
Vol 35
(3)
◽
pp. 1380-1387
◽
Cited By ~ 18
Author(s):
C. de Sterke
◽
D. Hall
Keyword(s):
Conduction Band
◽
Function Approximation
◽
Envelope Function
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Microscopic theory of nanostructured semiconductor devices: beyond the envelope-function approximation
Semiconductor Science and Technology
◽
10.1088/0268-1242/18/1/201
◽
2002
◽
Vol 18
(1)
◽
pp. R1-R31
◽
Cited By ~ 87
Author(s):
Aldo Di Carlo
Keyword(s):
Function Approximation
◽
Semiconductor Devices
◽
Microscopic Theory
◽
Envelope Function
◽
Nanostructured Semiconductor
Download Full-text
Effect of interfaces and the spin-orbit band on the band gaps of InAs/GaSb superlattices beyond the standard envelope-function approximation
Physical Review B
◽
10.1103/physrevb.69.155321
◽
2004
◽
Vol 69
(15)
◽
Cited By ~ 84
Author(s):
F. Szmulowicz
◽
H. Haugan
◽
G. J. Brown
Keyword(s):
Function Approximation
◽
Band Gaps
◽
Envelope Function
◽
Spin Orbit
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Matrix elements beyond the envelope function approximation
Nanoscale MOS Transistors
◽
10.1017/cbo9780511973857.016
◽
2011
◽
pp. 461-463
Author(s):
David Esseni
◽
Pierpaolo Palestri
◽
Luca Selmi
Keyword(s):
Function Approximation
◽
Envelope Function
◽
Matrix Elements
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Optical selection rules in superlattices in the envelope-function approximation
Physical Review B
◽
10.1103/physrevb.29.935
◽
1984
◽
Vol 29
(2)
◽
pp. 935-941
◽
Cited By ~ 96
Author(s):
P. Voisin
◽
G. Bastard
◽
M. Voos
Keyword(s):
Function Approximation
◽
Envelope Function
◽
Selection Rules
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Solution to spurious bands and spurious real solutions in the envelope-function approximation
Physical Review B
◽
10.1103/physrevb.71.245117
◽
2005
◽
Vol 71
(24)
◽
Cited By ~ 10
Author(s):
Frank Szmulowicz
Keyword(s):
Function Approximation
◽
Envelope Function
◽
Real Solutions
Download Full-text
General approach to the envelope-function approximation based on a quadrature method
Physical Review B
◽
10.1103/physrevb.48.8918
◽
1993
◽
Vol 48
(12)
◽
pp. 8918-8927
◽
Cited By ~ 140
Author(s):
R. Winkler
◽
U. Rössler
Keyword(s):
Function Approximation
◽
Envelope Function
◽
Quadrature Method
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