Electron Beam Testing Technology, Softcover reprint of the original 1st ed. 1993 Microdevices Series
Langue : Anglais
Coordonnateur : Thong John T.L.
Although exploratory and developmental activity in electron beam testing (EBT) 25 years, it was not had already been in existence in research laboratories for over until the beginning of the 1980s that it was taken up seriously as a technique for integrated circuit (IC) testing. While ICs were being fabricated on design rules of several microns, the mechanical ne edle probe served quite adequately for internal chip probing. This scenario changed with growing device complexity and shrinking geometries, prompting IC manufacturers to take note ofthis new testing technology. It required several more years and considerable investment by electron beam tester manufacturers, however, to co me up with user-friendly automated systems that were acceptable to IC test engineers. These intervening years witnessed intense activity in the development of instrumentation, testing techniques, and system automation, as evidenced by the proliferation of technical papers presented at conferences. With the shift of interest toward applications, the technology may now be considered as having come of age.
Background to Electron Beam Testing; W.C. Nixon. Introduction; J.T.L. Thong. Principles and Applications; J.T.L. Thong. Essential Electron Optics; A.R. Dinnis. Electron Beam Interaction with Specimen; K. Ura. Electron Spectrometers and Voltage Measurements; L. Dubbeldam. High Speed Techniques; J.T.L. Thong. Picosecond Photoemission Probing; H. Beha, R. Clauberg. Signal and Image Processing; F.M. Boland, E.R. Lynch. System Integration; M. Battù, et al. Practical Considerations in Electron Beam Testing; T.J. Aton. Industrial Case Studies; D.W. Ranasinghe, et al. Index.
Date de parution : 06-2013
Ouvrage de 462 p.
17.8x25.4 cm
Mots-clés :
Signal; electron optics; integrated circuit; material; optics; testing
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