Dislocations in laser-doped silicon detected by micro-photoluminescence spectroscopy
Date
2015-07-13
Authors
Nguyen, Hieu T.
Han, Young
Ernst, Marco
Fell, Andreas
Franklin, Evan
Macdonald, Daniel
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Publisher
American Institute of Physics
Abstract
We report the detection of laser-induced damage in laser-doped layers at the surface of crystalline silicon wafers, via micron-scale photoluminescence spectroscopy. The properties of the sub-band-gap emission from the induced defects are found to match the emission characteristics of dislocations. Courtesy of the high spatial resolution of the micro-photoluminescence spectroscopy technique, micron-scale variations in the extent of damage at the edge of the laser-doped region can be detected, providing a powerful tool to study and optimize laser-doping processes for silicon photovoltaics.
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Source
Applied Physics Letters
Type
Journal article