Identification of an apparent peak by use of the final thermally stimulated discharge current technique

• Published in: 2005 12th International Symposium on Electrets pp. 296 - 299
• Main Authors: Neagu, E.R., Neagu, R.M., Lanca, M.C., Vassilikou-Dova, A., Marat-Mendes, J.N.
• Format: Conference Proceeding
• Language: English
• Published: IEEE 2005
• Subjects: Current measurement; Electric variables measurement; Electrodes; Heating; Insulation; Physics; Polarization; Space charge; Temperature distribution; Temperature measurement
• ISBN: 0780391160; 9780780391161
• ISSN: 2153-3253; 2153-327X
• DOI: 10.1109/ISE.2005.1612380

The final thermally stimulated discharge current (FTSDC) technique can be used to analyze charge trapping and transport in insulating materials. The experimental conditions can be selected so that the FTSDC is mainly determined by the space charge detrapping. Measurements of the FTSDC in a wide temperature range including the local (secondary) (/spl beta/ relaxation and the non-local (primary) /spl alpha/ relaxation, for different polymers, demonstrate the existence of an apparent peak. The shift of peak temperature T/sub m/ with respect to the charging temperature T/sub p/ is analyzed. The interval T/sub m/ - T/sub p/ decreases from about 25 K to zero, as T/sub p/ approaches the glass transition T/sub g/. T/sub m/ - T/sub p/ is lower for materials of lower conductivity. The peak width at the half maximum intensity decreases as T/sub p/ increases and the thermal apparent activation energy increases. The variations are not monotonous revealing the temperature range where the molecular motion is stronger and consequently the charge trapping and detrapping processes are affected by the strong thermal motion.