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Quantum confinement effect in thin quantum wires
Jian Bai Xia
, K. Cheah
Department of Physics
Research output
:
Contribution to journal
›
Journal article
›
peer-review
55
Citations (Scopus)
Overview
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Keyphrases
Energy Gap
100%
Quantum Confinement Effect
100%
Optical Transition Matrix Element
100%
Quantum Wire
100%
Si Wire
100%
Direct Energy Gap
75%
Wire Width
75%
Quantum Confinement
50%
Gallium Arsenide
50%
Bulk Formula
50%
Wave Function
50%
Zinc Selenide
50%
Energy Levels
25%
Photoluminescence
25%
State Transition
25%
Order of Magnitude
25%
Semiconductors
25%
Indirect Energy
25%
Square Cross-section
25%
Lattice Constant
25%
Bulk Semiconductors
25%
Direct Transition
25%
Electronic States
25%
Optical Transition Property
25%
Energy Band Structure
25%
Homojunction
25%
Empirical Pseudopotential Method
25%
Bulk State
25%
Semiconductor Wires
25%
Engineering
Quantum Confinement Effect
100%
Band Gap
100%
Quantum Wire
100%
Optical Transition
71%
Matrix Element
57%
Quantum Confinement
28%
Gallium Arsenide
28%
Electronic State
14%
Experimental Result
14%
Ground State
14%
Cross Section
14%
Good Agreement
14%
Energy Band
14%
Homojunction
14%
Lattice Constant
14%
Band Structure
14%
State Transition
14%
Square Cross
14%
Material Science
Gallium Arsenide
100%
Photoluminescence
50%
Electronic Band Structure
50%
Lattice Constant
50%