Energy band structure of CdS/CdSe intrinsic Stark superlattices

D. Wolverson; M. P. Halsall; J. J. Davies

Energy band structure of CdS/CdSe intrinsic Stark superlattices

D. Wolverson, M. P. Halsall, J. J. Davies

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

Abstract

In strained-layer superlattices grown in appropriate crystallographic directions there exist large piezoelectric fields that affect the electronic band structure considerably. One of the first, and most striking, examples of these so-called intrinsic Stark superlattices was CdS/CdSe; this system has wurtzite form with the c axis normal to the plane of the (111)A GaAs substrate and the piezoelectric fields are calculated to be of order 108V m-1. In the present paper, we analyse the properties of the charge carriers in such superlattices by using an envelope function approach with Airy functions Ai(z) and Bi(z) as the basis solutions. This yields the exact wavefunctions and enables us to calculate the band structure as a function of the superlattice period.

Original language	English
Pages (from-to)	A123-A126
Journal	Semiconductor Science and Technology
Volume	6
Issue number	9 A
Publication status	Published - Sept 1991

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title = "Energy band structure of CdS/CdSe intrinsic Stark superlattices",

abstract = "In strained-layer superlattices grown in appropriate crystallographic directions there exist large piezoelectric fields that affect the electronic band structure considerably. One of the first, and most striking, examples of these so-called intrinsic Stark superlattices was CdS/CdSe; this system has wurtzite form with the c axis normal to the plane of the (111)A GaAs substrate and the piezoelectric fields are calculated to be of order 108V m-1. In the present paper, we analyse the properties of the charge carriers in such superlattices by using an envelope function approach with Airy functions Ai(z) and Bi(z) as the basis solutions. This yields the exact wavefunctions and enables us to calculate the band structure as a function of the superlattice period.",

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year = "1991",

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T1 - Energy band structure of CdS/CdSe intrinsic Stark superlattices

AU - Wolverson, D.

AU - Halsall, M. P.

AU - Davies, J. J.

PY - 1991/9

Y1 - 1991/9

N2 - In strained-layer superlattices grown in appropriate crystallographic directions there exist large piezoelectric fields that affect the electronic band structure considerably. One of the first, and most striking, examples of these so-called intrinsic Stark superlattices was CdS/CdSe; this system has wurtzite form with the c axis normal to the plane of the (111)A GaAs substrate and the piezoelectric fields are calculated to be of order 108V m-1. In the present paper, we analyse the properties of the charge carriers in such superlattices by using an envelope function approach with Airy functions Ai(z) and Bi(z) as the basis solutions. This yields the exact wavefunctions and enables us to calculate the band structure as a function of the superlattice period.

AB - In strained-layer superlattices grown in appropriate crystallographic directions there exist large piezoelectric fields that affect the electronic band structure considerably. One of the first, and most striking, examples of these so-called intrinsic Stark superlattices was CdS/CdSe; this system has wurtzite form with the c axis normal to the plane of the (111)A GaAs substrate and the piezoelectric fields are calculated to be of order 108V m-1. In the present paper, we analyse the properties of the charge carriers in such superlattices by using an envelope function approach with Airy functions Ai(z) and Bi(z) as the basis solutions. This yields the exact wavefunctions and enables us to calculate the band structure as a function of the superlattice period.

M3 - Article

SN - 0268-1242

VL - 6

SP - A123-A126

JO - Semiconductor Science and Technology

JF - Semiconductor Science and Technology

IS - 9 A

ER -

Energy band structure of CdS/CdSe intrinsic Stark superlattices

Abstract

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