Space- and time-resolved photoluminescence of In-alloyed GaAs using photoluminescence excitation correlation spectroscopy
- Creators
- Johnson, M. B.
- McGill, T. C.
- Hunter, A. T.
Abstract
Photoluminescence excitation correlation spectroscopy is used to space and time resolve photoluminescence (PL) intensity variations in the region of isolated dislocations in as-grown In-alloyed GaAs. Spatially resolved PL maps show an annulus of high intensity with an inner and outer dark background surrounding a dislocation. Typical inner and outer diameters of the annuli are about 200 and 400 µm, respectively, which is smaller than the average dislocation separation in In-alloyed GaAs. Temporal resolution of the PL measures the carrier lifetime in the bright and dark regions. These measurements show that the lifetime variation accounts for the PL intensity variation. The variation of the lifetime with temperature indicates that the defects governing the lifetimes in the bright and dark regions are different. Moreover, both defects are deep and neither defect is EL2.
Additional Information
Copyright © 1989 American Institute of Physics. Received 23 September 1988; accepted 5 December 1988. The authors wish to acknowledge H. Kimura and H. Olsen, both of Hughes Research Laboratories, for providing In-alloyed GaAs and for characterization of the dislocations using etch techniques, and Richard Miles of Caltech for computer graphics. This research was supported in part by the Defense Advanced Research Projects Agency under Contract No. N00014-84-C-0083.Attached Files
Published - JOHjap89.pdf
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Additional details
- Eprint ID
- 11388
- Resolver ID
- CaltechAUTHORS:JOHjap89
- N00014-84-C-0083
- Defense Advanced Research Projects Agency
- Created
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2008-08-11Created from EPrint's datestamp field
- Updated
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2021-11-08Created from EPrint's last_modified field