DocumentCode
1082485
Title
Investigation of transient electronic transport in GaAs following high energy injection
Author
Tang, Jeffrey Yuh-fong ; Hess, Karl
Author_Institution
Thomas J. Watson Research Laboratory, Yorktown Heights, NY
Volume
29
Issue
12
fYear
1982
fDate
12/1/1982 12:00:00 AM
Firstpage
1906
Lastpage
1911
Abstract
We present Monte Carlo simulations of the transient behavior of electrons injected into GaAs at high energies and accelerated (decelerated) by constant electric fields. Our calculations differ from previous calculations due to the inclusion of a realistic band structure (empirical pseudopotential) and the injection of electrons at high energies (e.g., via a heterobarrier). The results show that a narrow "collision-free window" (CFW) exists with respect to parameters such as the external electric field, the injection energy, the external voltages, and the semiconductor dimensions. Within this window average electron velocities of
cm/s can be achieved over distances of 10-5cm in emitter (source)- and base-like structures. Voltage (field) parameters typical for the collector (drain) are far outside the CFW and allow only for much reduced (by a factor of ∼ 10) electron velocities. We also discuss thermal noise in "ballistic devices" and show that the noise equivalent temperature can be exceedingly high.
cm/s can be achieved over distances of 10-5cm in emitter (source)- and base-like structures. Voltage (field) parameters typical for the collector (drain) are far outside the CFW and allow only for much reduced (by a factor of ∼ 10) electron velocities. We also discuss thermal noise in "ballistic devices" and show that the noise equivalent temperature can be exceedingly high.Keywords
Acceleration; Electrons; Gallium arsenide; Laboratories; Mouth; Scattering; Semiconductor device noise; Space charge; Temperature; Voltage;
fLanguage
English
Journal_Title
Electron Devices, IEEE Transactions on
Publisher
ieee
ISSN
0018-9383
Type
jour
DOI
10.1109/T-ED.1982.21050
Filename
1482547
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