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Proceedings Paper

Platinum-related deep levels in silicon and their passivation by atomic hydrogen using a home-built automated DLTS system
Author(s): B. P. Nagi Reddy; P. N. Reddy; S. V. Pandu Rangaiah
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Paper Abstract

An inexpensive automated DLTS system has been developed in modular form consisting of modules such as a capacitance meter, pulse generator, DLTS system timing controller, data acquisition system, PID temperature controller, cryostat with LN2 flow control facility, etc. These modules, except the capacitance meter and pulse generator, have been designed and fabricated in the laboratory. Further they are integrated and interfaced to PC AT/386 computer. Software has been developed to run the spectrometer, collect data and off-line data processing for the deep level parameters such as activation energy, capture cross-section and density. The system has been used to study the deep levels of platinum in n-type silicon and their passivation by atomic hydrogen. The estimated activation energy of the two acceptor levels are Ec-0.280 eV and Ec-0.522 eV and their capture cross sections are 2.2E-15 cm-2 and 4.3E-15 cm-2 respectively. These levels are found to be reactivated when the hydrogenated samples are annealed in the temperature range 350 - 500 degrees Celsius. The mechanism of passivation and reactivation of these levels are discussed.

Paper Details

Date Published: 13 September 1996
PDF: 13 pages
Proc. SPIE 2876, Process, Equipment, and Materials Control in Integrated Circuit Manufacturing II, (13 September 1996); doi: 10.1117/12.250898
Show Author Affiliations
B. P. Nagi Reddy, Sri Venkateswara Univ. (India)
P. N. Reddy, Sri Venkateswara Univ. (India)
S. V. Pandu Rangaiah, Sri Venkateswara Univ. (India)


Published in SPIE Proceedings Vol. 2876:
Process, Equipment, and Materials Control in Integrated Circuit Manufacturing II
Armando Iturralde; Te-Hua Lin, Editor(s)

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