Title :
Liquid and solid photocathodes and their applications for fast gaseous particle detectors
Author :
Charpak, G. ; Peskov, V. ; Scigocki, D. ; Lemenovski, D.
Author_Institution :
CERN, Geneva, Switzerland
fDate :
8/1/1991 12:00:00 AM
Abstract :
Semitransparent and reflective liquid photocathodes were investigated. Experiments have led to the conclusion that, in the case of semitransparent photocathodes, the photoemission increases strongly at certain thicknesses, when the electron temperature of the photoelectrons obtained in the applied electric field is higher than the conduction-band energy of the liquid. In the case of reflective photocathodes, a thin intermediate layer of vapor between the liquid and the gaseous phases contributes to the creation of photoelectrons, deteriorating the timing properties of the photocathode. The best timing properties and the highest quantum efficiency were achieved with a reflective photocathode made from a substrate with a small workfunction, covered by an adsorbed layer of photosensitive vapors
Keywords :
gas sensors; photocathodes; photoemission; adsorbed layer; applied electric field; conduction-band energy; electron temperature; fast gaseous particle detectors; photoelectrons; photoemission; photosensitive vapors; quantum efficiency; reflective liquid photocathodes; semitransparent photocathodes; small workfunction; solid photocathodes; thin intermediate layer; timing properties; Cathodes; Collimators; Dielectric liquids; Dielectric substrates; Electrons; Photodiodes; Photoelectricity; Radiation detectors; Solids; Timing;
Journal_Title :
Electrical Insulation, IEEE Transactions on
