Polarization reversal induced by heating-cooling cycles in MgO doped lithium niobate crystals / Shur V.Y., Mingaliev E.A., Lebedev V.A., Kuznetsov D.K., Fursov D.V. // Journal of Applied Physics. - 2013. - V. 113, l. 18.

ISSN:
00218979
Type:
Article
Abstract:
Polarization reversal during heating-cooling cycles was investigated in MgO doped lithium niobate (MgO:LN) crystal using piezoresponse force microscopy. The essential dependence of the domain structure evolution scenario on the maximal temperature in the cycle has been revealed experimentally. It has been shown that the heating of the engineered domain matrix from room temperature to 85 °C leads to light size reduction of the isolated domains at the matrix edges, whereas the heating to 170 °C leads to essential reduction of the domain size. The opposite strong effect of the domain formation and growth during cooling after pulse heating have been revealed in single domain MgO:LN. The simulation of the time dependence of the pyroelectric field during heating-cooling cycle allowed to reveal the temperature hysteresis and to explain all observed effects taking into account the temperature dependence of the bulk conductivity. © 2013 AIP Publishing LLC.
Author keywords:
Index keywords:
Bulk conductivities; Heating-cooling cycle; Mgo doped lithium niobate; Piezoresponse force microscopy; Polarization reversals; Pyroelectric fields; Temperature dependence; Temperature hysteresis; Cool
DOI:
10.1063/1.4801969
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Art. No. 187211
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Affiliations Ferroelectric Laboratory, Institute of Natural Sciences, Ural Federal University, Lenin Ave. 51, 620000 Ekaterinburg, Russian Federation; Faculty of Materials Science, Lomonosov Moscow State University, Leninskie Gory, 119991 Moscow, Russian Federation; Consulate General of the United States, Gogol Street, 15, 620151 Ekaterinburg, Russian Federation
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Correspondence Address Ferroelectric Laboratory, Institute of Natural Sciences, Ural Federal University, Lenin Ave. 51, 620000 Ekaterinburg, Russian Federation
CODEN JAPIA
Language of Original Document English
Abbreviated Source Title J Appl Phys
Source Scopus