Title :
Novel sputtering method for Pd-Al2O3 UV transparent conductive coatings
Author :
Axelevitch, A. ; Golan, G. ; Rabinovitch, E. ; Margolin, R.
Abstract :
Transparent conductive layers like indium tin oxide (ITO) or zinc oxide, that are commonly used as signal electrodes of vidicon television tubes, have an absorption edge in the visible range (350-400 nm) and therefore are not transparent in the ultra-violet (UV). We have developed the Pd-Al2O3 thin film structure which is appropriate as a signal electrode for the vidicon operating in the near UV region. The films were deposited using a novel sputtering method. The 20 Å thick Pd layer served as the conducting plate while the 30-50 Å thick Al2O3 coating functioned as the transparent protective film. The obtained signal plates had a sheet resistance of 2.5 kΩ and a transparency coefficient of 71% at a wavelength of 250 nm, which is suitable for near ultra-violet applications. The main advantage of vidicons equipped with such signal plates is that their dark current was less than 0.05 nA
Keywords :
alumina; electrodes; electron tube manufacture; palladium; protective coatings; sputter deposition; sputtered coatings; television camera tubes; transparency; 0.05 nA; 2.5 kohm; 20 A; 250 nm; 30 to 50 A; Al2O3 transparent protective film; Pd layer conducting plate; Pd-Al2O3; Pd-Al2O3 UV transparent conductive coatings; TV pick-up tubes; dark current reduction; near UV region; near ultra-violet applications; signal electrode material; sputtering method; transparency coefficient; vidicon television tubes; Coatings; Conductive films; Dark current; Electrodes; Electromagnetic wave absorption; Indium tin oxide; Protection; Sputtering; TV; Zinc oxide;
Conference_Titel :
Electrical and electronic engineers in israel, 2000. the 21st ieee convention of the
Conference_Location :
Tel-Aviv
Print_ISBN :
0-7803-5842-2
DOI :
10.1109/EEEI.2000.924452
