Subnanometer scale characterization of III-V-heterostructures

Author

Lakner, H.

Author_Institution

Werkstoffe der Elektrotech., Duisburg Univ., Germany

fYear

1996

fDate

21-25 Apr 1996

Firstpage

15

Lastpage

18

Abstract

Heterostructures based on III-V semiconductors play a dominant role for the production of optoelectronic and electronic high-speed or high-frequency devices. The necessary band-gap engineering is achieved by optimized growth procedures which allow to change the chemical composition and the crystal structure (e.g. strain or ordering) on the subnanometer scale. The evaluation of individual heterointerfaces with respect to chemical composition and crystal structure requires characterization techniques which offer the necessary high spatial resolution. Scanning transmission electron microscopy (STEM) offers several such quantitative techniques. It is the intention of this paper to demonstrate the capabilities of STEM in the subnanometer characterization of III-V-heterostructures based on InP-substrates. Additionally, the data obtained from nanocharacterization can be correlated to device performance

Keywords

III-V semiconductors; electron energy loss spectra; nanotechnology; scanning-transmission electron microscopy; semiconductor heterojunctions; III-V-heterostructures; InP; band-gap engineering; characterization techniques; chemical composition; crystal structure; device performance; nanocharacterization; optimized growth procedures; scanning transmission electron microscopy; spatial resolution; subnanometer scale characterization; Atomic measurements; Capacitive sensors; Chemicals; Electron beams; Energy resolution; Focusing; Image resolution; Probes; Spatial resolution; X-ray scattering;

fLanguage

English

Publisher

ieee

Conference_Titel

Indium Phosphide and Related Materials, 1996. IPRM '96., Eighth International Conference on

Conference_Location

Schwabisch-Gmund

Print_ISBN

0-7803-3283-0

Type

conf

DOI

10.1109/ICIPRM.1996.491922

Filename

491922