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Diffusional-deformational instability of the piezoelectric ceramics surface under repeated exposure to gas plasma flow
Russian version
Мuratikov K. L. 1, Kapralov A. A. 1, Sotnikova G. Yu. 1, Sukharev A. A. 1
1Ioffe Institute, St. Petersburg, Russia
Email: klm.holo@mail.ioffe.ru, kapr_alex@inbox.ru, GSotnikova@mail.ioffe.ru, alexsukharev@mail.ioffe.ru
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The experimental results of the piezoelectric ceramic materials surface modification under the exposure to pulsed high-energy gas plasma flows are presented. Within the boundaries of the diffusional-deformational instability theory, a model, describing processes responsible for the surface deformation and volumetric polarization decrease under increasing plasma loads, is suggested. The dynamic surface equations, accounting for the existence of significant defects concentration gradients as well as the defects activation energy changes in the areas exposed to a high-energy plasma flow, are considered. The estimates of the resulting deformation and surface spatial scale obtained from the suggested model are in good agreement with the experimental data for the piezoelectric ceramic samples exposed to different ion composition plasma flows and qualitatively explain the observed changes in the polarization across the samples volume. Keywords: piezoelectric ceramics, surface deformation, plasma-surface interaction, instability, defects.
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