Title :
Charging phenomena, dielectric relaxation processes and breakdown of oxides
Author :
Blaise, G. ; Le Gressus, Et C.
Author_Institution :
Lab. de Phys. du Solide, Paris Univ., Orsay, France
Abstract :
Scanning electron microscopy and surface science techniques were used to characterize insulators by their complex susceptibility, local variation of this susceptibility, and kinetics of dipolar relaxation, leading to the catastrophe phenomenon. It is shown that the insulator charging-up is due to trapping of the carriers, this being related to the presence of defects and to variation of the susceptibility. The frequency response of the dielectric allows one to investigate the mechanisms of polarization energy transfer to the phonon bath. Fast dipolar relaxation leads to a set of catastrophe phenomena such as flashover, fractures, and mechanical shock waves. An explanation of these phenomena leads to an explanation of the technological properties of organic and inorganic insulators
Keywords :
dielectric relaxation; dielectric resonance; electric breakdown of solids; scanning electron microscope examination of materials; SEM; carrier trapping; catastrophe phenomena; changing phenomena; complex susceptibility; dielectric relaxation processes; electric breakdown; fast dipolar relaxation; flashover; fractures; frequency response; insulator characterisation; insulator charging-up; kinetics of dipolar relaxation; mechanical shock waves; organic insulators; oxides; phonon bath; polarization energy transfer; surface science techniques; susceptibility variation; technological properties explanation; Dielectric breakdown; Dielectrics and electrical insulation; Electron traps; Energy exchange; Frequency response; Kinetic theory; Phonons; Polarization; Scanning electron microscopy; Surface charging;
Conference_Titel :
Electrical Insulation and Dielectric Phenomena, 1990. Annual Report., Conference on
Conference_Location :
Pocono Manor, PA
DOI :
10.1109/CEIDP.1990.201347
