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Applications of Scanning Defect Mapping System for Semiconductor Characterization

Published online by Cambridge University Press:  26 February 2011

Kavin F Carr ,
N. Carlson ,
P. Weitzman ,
B. L. Sopori ,
C. Marshall  and
L. Allen
Kavin F Carr
Affiliation:
Labsphere, Inc., Shaker Street, No. Sutton, NH 03260
N. Carlson
Affiliation:
Labsphere, Inc., Shaker Street, No. Sutton, NH 03260
P. Weitzman
Affiliation:
Labsphere, Inc., Shaker Street, No. Sutton, NH 03260
B. L. Sopori
Affiliation:
National Renewable Energy Laboratory, 1617 Cole Boulevard, Golden, CO 80401
C. Marshall
Affiliation:
National Renewable Energy Laboratory, 1617 Cole Boulevard, Golden, CO 80401
L. Allen
Affiliation:
National Renewable Energy Laboratory, 1617 Cole Boulevard, Golden, CO 80401
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Abstract

A laser scanning system has been developed by the National Renewable Energy Laboratory for the rapid characterization of crystal defects in single- and poly-crystalline semiconductors. The scanning defect mapping system has been commercialized by Labsphere, Inc. as the PVScan 5000. In the unprocessed material, the system produces digital color maps of the spatial distributions of dislocations and grain boundaries simultaneously. After device fabrication, the PVScan 5000 is used to produce photoresponsivity maps of the light beam induced current (LBIC) on a photovoltaic device such as a solar cell or a photodetector. An additional feature is that it also measures the spatial distributions of optical reflectance, both specular and diffuse, which can be applied to the LBIC maps to determine the internal responsivity of the device. The internal responsivity is proportional to the minority carrier diffusion length of silicon devices. It may be possible, therefore, to determine the diffusion length for certain devices.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 378: Symposium B – Defect and Impurity-Engineered Semiconductors and Devices , 1995 , 579
Copyright
Copyright © Materials Research Society 1995

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References

REFERENCES

1 Sopori, B.L., Applied Optics 27 (22), 46764683 (1988).Google Scholar
2 Sopori, B.L., J. Electrochem. Soc. 135 (10), 26012606 (1988).Google Scholar