Archives of Acoustics, 23, 3, pp. 443-450, 1998

The influence of light on fatigue in PZT films with planar electrodes

D. Czekaj
University of Silesia, Institute of Engineering Problems, 41-200 Sosnowiec, ul. Śnieżna 2, Poland
Poland

Z. Surowiak
University of Silesia, Institute of Engineering Problems, 41-200 Sosnowiec, ul. Śnieżna 2, Poland
Poland

V. P. Dudkievich
Institute of Physics, Department of Crystal Physics, SU-344101 Rostov-on-Don, Stachki Ave. 194, Russia
Russian Federation

I. M. Sem
Institute of Physics, Department of Crystal Physics, SU-344101 Rostov-on-Don, Stachki Ave. 194, Russia
Russian Federation

E. V. Sviridov
Institute of Physics, Department of Crystal Physics, SU-344101 Rostov-on-Don, Stachki Ave. 194, Russia
Russian Federation

Degradation properties, such as a low voltage breakdown, fatigue, and ageing of ferroelectrics are believed to be the major problems of ferroelectric films affecting their lifetime. Although these properties have been studied for a long time, the information is still insufficient for both a quality improvement of ferroelectric devices and their lifetime predictions. Degradation mechanisms should be studied for the lifetime prediction, as well as for material development.Fatigue is the decrease in switchable polarization with increasing number of polarization reversals. In this paper, general features and the mechanisms of fatigue are briefly referred to and the light influence on fatigue in PZT films is discussed.A set of fatigue measurements has been performed on RF-sputtered PZT films of about 2μm in thickness. Polarization switching characteristics by applying sinusoidal a.c. electric fields were studied both with sandwich-type and planar electrodes. The planar structure has allowed for the study of the influence of the free charge carries induced by UV - illumination in the planar capacitor gap. The fatigue became noticeable after 106 switching cycles for a sandwich structure and after 109 those cycles for films with planar electrodes. The film illumination during the polarization switching accelerates significantly the fatigue process. The additional fatigue induced by the photoactive light was completely reversible.Of special importance is the fact that the films on metal substrates (sandwich-capacitor) were fatigued more rapidly than those on dielectric substrates (planar capacitor), though they were prepared under the same conditions. This evidences the major contribution of transition layers to the development of the fatigue process that agrees well with the model of fatigue proposed in the literature.
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