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Anomalous motion of charged domain walls and associated negative capacitance in copper–chlorine boracite

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posted on 2021-03-24, 08:48 authored by Joseph G. M. Guy, Charlotte Cochard, Pablo Aguado-Puente, Elisabeth Soergel, Roger W. Whatmore, Michele A. Conroy, Kalani Moore, Eileen Courtney, ALAN HARVEY, Ursel BangertUrsel Bangert, Amit Kumar, Raymond G. P. McQuaid, J. Marty Gregg
During switching, the microstructure of a ferroelectric normally adapts to align internal dipoles with external electric fields. Favorably oriented dipolar regions (domains) grow at the expense of those in unfavorable orientations and this is manifested in a predictable field-induced motion of the walls that separate one domain from the next. Here, the discovery that specific charged 90°domain walls in copper–chlorine boracite move in the opposite direction to that expected, increasing the size of the domain in which polarization is anti-aligned with the applied field, is reported. Polarization–field (P–E) hysteresis loops, inferred from optical imaging, show negative gradients and on-transient negative capacitance, throughout the P–E cycle. Switching currents (generated by the relative motion between domain walls and sensing electrodes) confirm this, insofar as their signs are opposite to those expected conventionally. For any given bias, the integrated switching charge due to this nomalous wall motion is directly proportional to time, indicating that the magnitude of the negative capacitance component should be inversely related to frequency. This passes Jonscher’s test for the misinterpretation of positive inductance and gives confidence that field-induced motion of these specific charged domain walls generates a measurable negative capacitance contribu tion to the overall dielectric response

History

Publication

Advance Material;2008068

Publisher

Wiley

Note

peer-reviewed

Language

English

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