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공공누리This item is licensed Korea Open Government License

dc.contributor.author
Parijat Sengupta
dc.contributor.author
Gerhard Klimeck
dc.contributor.author
Yaohua Tan
dc.contributor.author
류훈
dc.contributor.author
이선희
dc.date.accessioned
2019-08-28T07:41:48Z
dc.date.available
2019-08-28T07:41:48Z
dc.date.issued
2015-08-02
dc.identifier.issn
1569-8025
dc.identifier.uri
https://repository.kisti.re.kr/handle/10580/14472
dc.identifier.uri
http://www.ndsl.kr/ndsl/search/detail/article/articleSearchResultDetail.do?cn=NART75252681
dc.description.abstract
The k.p perturbation method for determination of electronic structure first pioneered by Kohn and Luttinger continues to provide valuable insight to several band structure features. This method has been adapted to heterostructures confined in up to three directions. In this paper, numerical details of setting up a k.p Hamiltonian using the finite difference approximation for such confined nanostructures is explicitly demonstrated. Nanostructures belonging to two different symmetry classes, namely, the cubic zincblende and rhombohedral crystals are considered. Rhombohedral crystals, of late, have gained prominence as candidates for the recently discovered topological insulator (TI) class of materials. Lastly, the incorporation of a strain field to the k.p Hamiltonian and the corresponding matrix equations for computing the intrinsic and an externally applied strain in heterostructures within a continuum approximation is shown. Two applications are considered (1)Computation of the eigenstates of a multi-million zincblende InAs quantum dot with a stress-reducing InGaAs layer of varying Indium composition embedded in a GaAs matrix and (2) Dispersion of a rhombohedral TI Bi2Se3 film and the necessary alteration in presence of proximity-induced superconductivity.
dc.language
eng
dc.relation.ispartofseries
Journal of Computational Electronics
dc.title
Numerical guidelines for setting up a k.p simulator with applications to quantum dot heterostructures and topological insulators
dc.citation.endPage
14
dc.citation.startPage
1
dc.citation.volume
Advanced Online Publication
dc.subject.keyword
Eight-band k.p
dc.subject.keyword
Bir-Pikus Hamiltonian
dc.subject.keyword
Topological insulator
dc.subject.keyword
Quantum dot
dc.subject.keyword
s-wave superconductor
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