Title :
Characterization of electrically active defects in photovoltaic detector arrays using laser beam-induced current
Author :
Redfern, David A. ; Musca, Charles A. ; Dell, John M. ; Faraone, Lorenzo
Author_Institution :
Sch. of Electr., Univ. of Western Australia, Crawley, WA, Australia
Abstract :
One of the main limitations in the operability of modern infrared focal plane arrays of p-n junction diodes formed on molecular-beam epitaxy (MBE)-grown HgCdTe is the effect of localized defects. Such defects, including voids, triangles and microvoids, are a feature of the MBE growth regime and can compromise the performance of devices fabricated within the vicinity of electrically active defects. While such defects can often be identified visually, not all defects are electrically active such that they provide a current leakage path shunting the p-n junction of the individual photodiode. In this paper, the use of laser beam-induced current is proposed as a nondestructive characterization technique, and quantitative aspects of its use in the study of electrically active defects in photodiode arrays are examined.
Keywords :
II-VI semiconductors; OBIC; cadmium compounds; infrared detectors; leakage currents; mercury compounds; molecular beam epitaxial growth; p-n junctions; photodetectors; voids (solid); HgCdTe; current leakage; electrically active defects; infrared focal plane arrays; laser beam-induced current; localized defects; microvoids; molecular-beam epitaxy; nondestructive characterization; optical beam-induced current; p-n junction diodes; photodiode; photovoltaic detector arrays; triangles defects; voids defects; Diodes; Laser modes; Molecular beam epitaxial growth; Optical arrays; P-n junctions; Photodiodes; Photovoltaic systems; Semiconductor laser arrays; Sensor arrays; Solar power generation; Defects; laser beam-induced current (LBIC); leakage; nondestructive characterization; optical beam-induced current; photodiode;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2005.856182
