Electronic structure of highly mismatched semiconductor alloys

Author

Walukiewicz, W.

Author_Institution

Div. of Mater. Sci., Lawrence Berkeley Lab., CA, USA

fYear

2000

fDate

2000

Firstpage

252

Lastpage

259

Abstract

We consider a new class of semiconductor alloys in which metallic atoms are partially replaced by highly electronegative atoms. The electronegative atoms introduce localized levels close to the conduction band edge of the host semiconductor matrix. Interaction of the levels with the extended states is described in terms of a band anticrossing. The interaction leads to a massive modification of the electronic structure splitting the conduction band into two highly nonparabolic subbands. The band anticrossing model accounts very well for recent experimental results obtained on several highly mismatched alloy systems including, GaInNAs, GaNP, ZnSTe and ZnSeTe alloys

Keywords

conduction bands; electronegativity; localised states; semiconductors; GaInNAs; GaNP; ZnSTe; ZnSeTe; band anticrossing; conduction band edge; electronic structure; electronic structure splitting; extended states; highly electronegative atoms; highly mismatched semiconductor alloys; host semiconductor matrix; localized levels; metallic atoms; nonparabolic subbands; Alloying; Conducting materials; Effective mass; Inorganic materials; Lattices; Lead; Material properties; Nitrogen; Photonic band gap; Semiconductor materials;

fLanguage

English

Publisher

ieee

Conference_Titel

Semiconducting and Insulating Materials Conference, 2000. SIMC-XI. International

Conference_Location

Canberra, ACT

Print_ISBN

0-7803-5814-7

Type

conf

DOI

10.1109/SIM.2000.939238

Filename

939238