Self-consistent calculation of electronic states in asymmetric double barrier structure

A. Song; H. Zheng

doi:10.1016/0921-5107(95)01395-4

Self-consistent calculation of electronic states in asymmetric double barrier structure

A. Song, H. Zheng

Medical Education (L5)

Research output: Contribution to journal › Article › peer-review

Abstract

With contributions from both three-dimensional (3D) electrons in heavily doped contacts and 2D electrons in the accumulation layer, a self-consistent calculation based on effective mass theory is presented for studying the anomalous behaviour of the quasi-bound levels in the accumulation layer and that in the central well of an asymmetric double barrier structure (DBS). By choosing the thickness of the incident barrier properly, it is revealed that these two quasi-bound levels may merge into a unique bound level in the off-resonance regime which shows a very good 2D nature in contrast to the conventional picture for level crossing. An evident intrinsic I-V bistability is also shown. It is noticeable that the effect of charge build-up in the central well is so strong that the electric field in the incident barrier even decreases when the applied bias increases within the resonant region.

Original language	Undefined
Pages (from-to)	367-371
Number of pages	5
Journal	Materials Science and Engineering B: Advanced Functional Solid-state Materials
Volume	35
Issue number	1-2
DOIs	https://doi.org/10.1016/0921-5107(95)01395-4
Publication status	Published - 1995

Keywords

Asymmetric double barrier structure
Effective mass theory
Electron states
Quasi bound levels

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10.1016/0921-5107(95)01395-4

Cite this

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abstract = "With contributions from both three-dimensional (3D) electrons in heavily doped contacts and 2D electrons in the accumulation layer, a self-consistent calculation based on effective mass theory is presented for studying the anomalous behaviour of the quasi-bound levels in the accumulation layer and that in the central well of an asymmetric double barrier structure (DBS). By choosing the thickness of the incident barrier properly, it is revealed that these two quasi-bound levels may merge into a unique bound level in the off-resonance regime which shows a very good 2D nature in contrast to the conventional picture for level crossing. An evident intrinsic I-V bistability is also shown. It is noticeable that the effect of charge build-up in the central well is so strong that the electric field in the incident barrier even decreases when the applied bias increases within the resonant region.",

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T1 - Self-consistent calculation of electronic states in asymmetric double barrier structure

AU - Song, A.

AU - Zheng, H.

PY - 1995

Y1 - 1995

N2 - With contributions from both three-dimensional (3D) electrons in heavily doped contacts and 2D electrons in the accumulation layer, a self-consistent calculation based on effective mass theory is presented for studying the anomalous behaviour of the quasi-bound levels in the accumulation layer and that in the central well of an asymmetric double barrier structure (DBS). By choosing the thickness of the incident barrier properly, it is revealed that these two quasi-bound levels may merge into a unique bound level in the off-resonance regime which shows a very good 2D nature in contrast to the conventional picture for level crossing. An evident intrinsic I-V bistability is also shown. It is noticeable that the effect of charge build-up in the central well is so strong that the electric field in the incident barrier even decreases when the applied bias increases within the resonant region.

AB - With contributions from both three-dimensional (3D) electrons in heavily doped contacts and 2D electrons in the accumulation layer, a self-consistent calculation based on effective mass theory is presented for studying the anomalous behaviour of the quasi-bound levels in the accumulation layer and that in the central well of an asymmetric double barrier structure (DBS). By choosing the thickness of the incident barrier properly, it is revealed that these two quasi-bound levels may merge into a unique bound level in the off-resonance regime which shows a very good 2D nature in contrast to the conventional picture for level crossing. An evident intrinsic I-V bistability is also shown. It is noticeable that the effect of charge build-up in the central well is so strong that the electric field in the incident barrier even decreases when the applied bias increases within the resonant region.

KW - Asymmetric double barrier structure

KW - Effective mass theory

KW - Electron states

KW - Quasi bound levels

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Self-consistent calculation of electronic states in asymmetric double barrier structure

Abstract

Keywords

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