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Resonant tunneling and negative differential conductance in single and multiple quantum well structures

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4 Author(s)

Torabi, A. ; Georgia Institute of Technology ; Sumers, C.J. ; Harris, H.M. ; Rucker, C.T.

Summary form only given, as follows. A series of investigations are reported on the geometrical and temperature dependencies of the negative differential conductance effects observed in doped and symmetrical double barrier single quantum well (DBSQW) devices, as well as in asymmetrical multiple quantum well variable spaced superlattice structures.

Published in:
Millimeter Wave and Far-Infrared Technology, 1989. ICMWFT '89. International Conference on

Date of Conference: 0-0 1989

Page(s):: 331
Print ISBN:: 0-87942-717-5

Conference Location :: Beijing, China
Digital Object Identifier :: 10.1109/ICMWFT.1989.763840
Product Type:: Conference Publications

Author(s)

Torabi, A.
Georgia Institute of Technology
Sumers, C.J. ; Harris, H.M. ; Rucker, C.T.

IEEE TERMS

Adders

Current measurement

Gallium arsenide

Quantum well devices

Resonant tunneling devices

Space technology

Superlattices

Symmetric matrices

Temperature dependence

Voltage

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