
<div class="publication-info">
	<h3>Formation of single domain state and spontaneous backswitching in SBN single crystal / Kolchina E.A., Neradovskiy M.M., Shikhova V.A., Pelegov D.V., Shur V.Y., Ivleva L.I., Dec J. // Ferroelectrics. - 2016. - V. 496, l. 1. - P. 149-156.</h3>
	<dl>
		<dt>ISSN:</dt><dd>00150193</dd>
		<dt>Type:</dt><dd>Conference Paper</dd>
				<dt>Abstract:</dt><dd>Formation of the single domain state and spontaneous backswitching have been studied in polar cut single crystals of relaxor ferroelectric strontium-barium niobate SrxBa1-xNb2O6 with x = 0.61. The piezoresponse force microscopy has been used for domain visualization. Two methods of creation of the single domain state were applied: (1) cyclic switching below freezing temperature and (2) cooling from the temperature corresponding to relaxor phase to room temperature in constant field. The domain structure, appearing as a result of spontaneous backswitching after fast removal of the external field, have been revealed and analyzed. © 2016 Taylor & Francis Group, LLC.</dd>
		<dt>Author keywords:</dt><dd>piezoresponse force microscopy; Relaxor ferroelectrics; single domain state; spontaneous backswitching; strontiumbarium niobate</dd>
		<dt>Index keywords:</dt><dd>Barium compounds; Ferroelectric materials; Niobium compounds; Scanning probe microscopy; Strontium compounds; Backswitching; Piezoresponse force microscopy; Relaxor ferroelectric; Single-domain state;</dd>
		<dt>DOI:</dt><dd>10.1080/00150193.2016.1155032</dd>
		<dt>Смотреть в Scopus:</dt>
			<dd>
								<a href="https://www.scopus.com/inward/record.uri?eid=2-s2.0-84964502469&doi=10.1080%2f00150193.2016.1155032&partnerID=40&md5=11e63bf1b5295f5876cc094c518b50ae" target="_blank">https://www.scopus.com/inward/record.uri?eid=2-s2.0-84964502469&amp;doi=10.1080%2f00150193.2016.1155032&amp;partnerID=40&amp;md5=11e63bf1b5295f5876cc094c518b50ae</a>
							</dd>

		<dt>Соавторы в МНС:</dt>
		<dd>
				</dd>

				<dt>Другие поля</dt>
		<dd>
			<table class="v-table">
			<thead>
				<tr>
					<td class="w8 gar">Поле</td>
					<td>Значение</td>
				</tr>
			</thead>
			<tbody>
								<tr>
						<td class="gar">Link</td>
						<td>https://www.scopus.com/inward/record.uri?eid=2-s2.0-84964502469&doi=10.1080%2f00150193.2016.1155032&partnerID=40&md5=11e63bf1b5295f5876cc094c518b50ae</td>
					</tr>
										<tr>
						<td class="gar">Affiliations</td>
						<td>Institute of Natural Sciences, Ural Federal University, Ekaterinburg, Russian Federation; Laboratory of Condensed Matter Physics, University of Nice Sophia-Antipolis, Nice, France; Prokhorov General Physics Institute of the RAS, Moscow, Russian Federation; Institute of Materials Science, University of Silesia, Katowice, Poland</td>
					</tr>
										<tr>
						<td class="gar">Author Keywords</td>
						<td>piezoresponse force microscopy; Relaxor ferroelectrics; single domain state; spontaneous backswitching; strontiumbarium niobate</td>
					</tr>
										<tr>
						<td class="gar">Funding Details</td>
						<td>UID RFMEFI59414X0011, Ministry of Education and Science of the Russian Federation</td>
					</tr>
										<tr>
						<td class="gar">Funding Text</td>
						<td>The research was made possible in part by the Ministry of Education and Science of the Russian Federation (UID RFMEFI59414X0011), by RFBR (Grants 14-02-31864-mol-a and 16-02-00821-a) and by Government of the Russian Federation (Act 211, Agreement 02.A03.21.0006).</td>
					</tr>
										<tr>
						<td class="gar">References</td>
						<td>Myers, L.E., Eckardt, R.C., Fejer, M.M., Byer, R.L., Bosenberg, W.R., Pierce, J.W., Quasi-phase-matched optical parametric oscillators in bulk periodically poled LiNbO 3 J Opt Soc Am B., 12, pp. 2102-2116; Shur, V.Y.A., Akhmatkhanov, A.R., Baturin, I.S., Micro-And nano-domain engineering in lithium niobate (2015) Appl Phys Rev, 2, p. 040604; Meyn, J.-P., Fejer, M.M., Tunable ultraviolet radiation by second-harmonic generation in periodically poled lithium tantalate (1997) Opt Lett, 22, pp. 1214-1216; Zukauskas, A., Thilmann, N., Pasiskevicius, V., Laurell, F., Canalias, C., 5 mm thick periodically poled Rb-doped KTP for high energy optical parametric frequency conversion (2011) Opt Mater Express, 1, pp. 201-206; Wang, S., Pasiskevicius, V., Laurell, L.F., Karlsson, H., Ultraviolet generation by first-order frequency doubling in periodically poled KTiOPO 4 (1998) Opt Lett, 23, pp. 1883-1885; Smolensky, G.A., Isupov, V.A., Agranovskaya, A.I., Popov, S.N., Ferroelectrics with diffused phase transition (1960) Sov Phys Solid State, 2, pp. 2906-2911; Cross, L.E., Relaxor ferroelectrics (1987) Ferroelectrics, 76, pp. 241-267; Gainutdinov, R.V., Volk, T.R., Lysova, O.A., Tolstikhina, A.L., Ivleva, L.I., Processes of the relaxation of regular microdomain structures recorded in ferroelectric strontium-barium niobate crystals in the field of an atomic force microscope (2009) JETP Lett, 90, pp. 303-309; Shur, V.Y.A., Zelenovskiy, P.S., Micro-And nanodomain imaging in uniaxial ferroelectrics: Joint application of optical, confocal Raman, and piezoelectric force microscopy (2014) J Appl Phys, 116, p. 066802; Wang, Y.G., Kleemann, W., Woike, T.H., Pankrath, R., Atomic force microscopy of domains and volume holograms in Sr 0.61 Ba 0.39 Nb 2O 6 :Ce 3+ (2000) Phys Rev B., 61, pp. 3333-3336; Shvartsman, V.V., Kleemann, W., Evolution of nanodomains in the uniaxial relaxor Sr 0.61 Ba 0.39 Nb 2O 6 :Ce (2006) IEEE T Son Ultrason, 53, pp. 2275-2278; Terabe, K., Takekawa, S., Nakamura, M., Kitamura, K., Higuchi, S., Gotoh, Y., Gruverman, A., Imaging and engineering the nanoscale-domain structure of a Sr 0.61 Ba 0.39 Nb 2O 6 crystal using a scanning force microscope (2002) Appl Phys Lett, 81, pp. 2044-2046; Gainutdinov, R.V., Volk, T.R., Lysova, O.A., Razgonov, I.I., Tolstikhina, A.L., Ivleva, L.I., Recording of domains and regular domain patterns in strontium-barium niobate crystals in the field of atomic force microscope (2009) Appl Phys B Lasers Opt, 95, pp. 505-512; Shur, V.Y.A., Shikhova, V.A., Pelegov, D.V., Ievlev, A.V., Ivleva, L.I., Formation of nanodomain ensembles during polarization reversal in Sr 0.61 Ba 0.39 Nb 2O 6 : Ce single crystals (2011) Phys Sol Stat, 53, pp. 2311-2315; Zelenovskiy, P.S., Shikhova, V.A., Ievlev, A.V., Neradovskiy, M.M., Shur, V.Y.A., Micro-Raman visualization of domain structure in strontium barium niobate single crystals (2012) Ferroelectrics, 439, pp. 33-39; Shur, V.Y.A., Shikhova, V.A., Zelenovskiy, P.S., Pelegov, D.V., Ivleva, L.I., Dec, J., Formation of self-Assembled nanodomain structures in single crystals of uniaxial ferroelectrics lithium niobate, lithium tantalate and strontium-barium niobate (2014) J Adv Dielectr, 4, p. 1450006; Shur, V.Y.A., Pelegov, D.V., Shikhova, V.A., Kuznetsov, D.K., Nikolaeva, E.V., Rumyantsev, E.L., Yakutova, O.V., Granzow, T., Study of the domain structure evolution in single crystals of relaxor ferroelectric Sr 0.61 Ba 0.39 Nb 2O 6 :Ce (2010) Phys Sol Stat, 52, pp. 346-351; Shur, V.Y.A., Pelegov, D.V., Shikhova, V.A., Kuznetsov, D.K., Nikolaeva, E.V., Rumyantsev, E.L., Yakutova, O.V., Granzow, T., Study of domain structure kinetics in SBN crystals using optical methods (2008) Ferroelectrics, 374, pp. 177-184; Shur, V.Y.A., Nano-And micro-domain engineering in normal and relaxor ferroelectrics (2008) Handbook of Advanced Dielectric, Piezoelectric and Ferroelectric Materials: Synthesis, Properties and Applications, pp. 622-669. , In: Z. G. Ye, ed. Woodhead Publishing, Cambridge; Batchko, R.G., Shur, V.Y.A., Fejer, M.M., Byer, R.L., Backswitch poling in lithium niobate for high-fidelity domain patterning and efficient blue light generation (1999) Appl Phys Lett, 75, pp. 1673-1675; Batchko, R.G., Fejer, M.M., Byer, R.L., Woll, D., Wallenstein, R., Shur, V.Y.A., Erman, L., Continuous-wave quasi-phase-matched generation of 60 mW at 465 nm by single-pass frequency doubling of a laser diode in backswitch-poled lithium niobate (1999) Opt Lett, 24, pp. 1293-1295; Shur, V.Y.A., Rumyantsev, E.L., Nikolaeva, E.V., Shishkin, E.I., Fursov, D.V., Batchko, R.G., Eyres, L.A., Byer, R.L., Nanoscale backswitched domain patterning in lithium niobate (2000) Appl Phys Lett, 76, pp. 143-145; Ivleva, L.I., Physicochemical and technological peculiarities of multicomponent oxide crystal growth from melt by modified Stepanov technique (2009) Bull Russ Acad Sci Phys, 73, pp. 1338-1340; Lukasiewicz, T., Swirkowicz, M.A., Dec, J., Hofman, W., Szyrski, W., Strontium-barium niobate single crystals, growth and ferroelectric properties (2008) J Cryst Growth, 310, pp. 1464-1469; Shur, V., Shikhova, V., Ievlev, A., Zelenovskiy, P., Neradovskiy, M., Pelegov, D., Ivleva, L., Nanodomain structures formation during polarization reversal in uniform electric field in strontium barium niobate single crystals (2012) J Appl Phys, 112, p. 064117; Shur, V.Y.A., Gruverman, A.L., Letuchev, V.V., Rumyantsev, E.L., Subbotin, A.L., Domain structure of lead germanate (1989) Ferroelectrics, 98, pp. 29-49; Wilde, J.P., Wilde, R.E., Rayleigh scattering in Sr 0.61 Ba 0.39 Nb 2O 6 (1992) J Appl Phys, 71, pp. 418-421; Shur, V.Y.A., Rumyantsev, E.L., Nikolaeva, E.V., Shishkin, E.I., Fursov, D.V., Batchko, R.G., Eyres, L.A., Sindel, J., Formation of self-organized nanodomain patterns during spontaneous backswitching in lithium niobate (2001) Ferroelectrics, 253, pp. 105-114; Lobov, A.I., Shur, V.Y.A., Kuznetsov, D.K., Negashev, S.A., Pelegov, D.V., Shishkin, E.I., Zelenovskiy, P.S., Discrete switching by growth of nano-scale domain rays under highly-nonequilibrium conditions in lithium niobate single crystals (2008) Ferroelectrics, 373, pp. 99-108; Shur, V.Y.A., Kuznetsov, D.K., Lobov, A.I., Nikolaeva, E.V., Dolbilov, M.A., Orlov, A.N., Osipov, V.V., Formation of self-similar surface nano-domain structures in lithium niobate under highly nonequilibrium conditions (2006) Ferroelectrics, 341, pp. 85-93</td>
					</tr>
										<tr>
						<td class="gar">Correspondence Address</td>
						<td>Kolchina, E.A.; Institute of Natural Sciences, Ural Federal UniversityRussian Federation; email: elizaveta.kolchina@urfu.ru</td>
					</tr>
										<tr>
						<td class="gar">Publisher</td>
						<td>Taylor and Francis Inc.</td>
					</tr>
										<tr>
						<td class="gar">CODEN</td>
						<td>FEROA</td>
					</tr>
										<tr>
						<td class="gar">Language of Original Document</td>
						<td>English</td>
					</tr>
										<tr>
						<td class="gar">Abbreviated Source Title</td>
						<td>Ferroelectrics</td>
					</tr>
										<tr>
						<td class="gar">Source</td>
						<td>Scopus</td>
					</tr>
								</tbody>
			</table>
		</dd>
			</dl>

</div>
Поле	Значение
Link	https://www.scopus.com/inward/record.uri?eid=2-s2.0-84964502469&doi=10.1080%2f00150193.2016.1155032&partnerID=40&md5=11e63bf1b5295f5876cc094c518b50ae
Affiliations	Institute of Natural Sciences, Ural Federal University, Ekaterinburg, Russian Federation; Laboratory of Condensed Matter Physics, University of Nice Sophia-Antipolis, Nice, France; Prokhorov General Physics Institute of the RAS, Moscow, Russian Federation; Institute of Materials Science, University of Silesia, Katowice, Poland
Author Keywords	piezoresponse force microscopy; Relaxor ferroelectrics; single domain state; spontaneous backswitching; strontiumbarium niobate
Funding Details	UID RFMEFI59414X0011, Ministry of Education and Science of the Russian Federation
Funding Text	The research was made possible in part by the Ministry of Education and Science of the Russian Federation (UID RFMEFI59414X0011), by RFBR (Grants 14-02-31864-mol-a and 16-02-00821-a) and by Government of the Russian Federation (Act 211, Agreement 02.A03.21.0006).
References	Myers, L.E., Eckardt, R.C., Fejer, M.M., Byer, R.L., Bosenberg, W.R., Pierce, J.W., Quasi-phase-matched optical parametric oscillators in bulk periodically poled LiNbO 3 J Opt Soc Am B., 12, pp. 2102-2116; Shur, V.Y.A., Akhmatkhanov, A.R., Baturin, I.S., Micro-And nano-domain engineering in lithium niobate (2015) Appl Phys Rev, 2, p. 040604; Meyn, J.-P., Fejer, M.M., Tunable ultraviolet radiation by second-harmonic generation in periodically poled lithium tantalate (1997) Opt Lett, 22, pp. 1214-1216; Zukauskas, A., Thilmann, N., Pasiskevicius, V., Laurell, F., Canalias, C., 5 mm thick periodically poled Rb-doped KTP for high energy optical parametric frequency conversion (2011) Opt Mater Express, 1, pp. 201-206; Wang, S., Pasiskevicius, V., Laurell, L.F., Karlsson, H., Ultraviolet generation by first-order frequency doubling in periodically poled KTiOPO 4 (1998) Opt Lett, 23, pp. 1883-1885; Smolensky, G.A., Isupov, V.A., Agranovskaya, A.I., Popov, S.N., Ferroelectrics with diffused phase transition (1960) Sov Phys Solid State, 2, pp. 2906-2911; Cross, L.E., Relaxor ferroelectrics (1987) Ferroelectrics, 76, pp. 241-267; Gainutdinov, R.V., Volk, T.R., Lysova, O.A., Tolstikhina, A.L., Ivleva, L.I., Processes of the relaxation of regular microdomain structures recorded in ferroelectric strontium-barium niobate crystals in the field of an atomic force microscope (2009) JETP Lett, 90, pp. 303-309; Shur, V.Y.A., Zelenovskiy, P.S., Micro-And nanodomain imaging in uniaxial ferroelectrics: Joint application of optical, confocal Raman, and piezoelectric force microscopy (2014) J Appl Phys, 116, p. 066802; Wang, Y.G., Kleemann, W., Woike, T.H., Pankrath, R., Atomic force microscopy of domains and volume holograms in Sr 0.61 Ba 0.39 Nb 2O 6 :Ce 3+ (2000) Phys Rev B., 61, pp. 3333-3336; Shvartsman, V.V., Kleemann, W., Evolution of nanodomains in the uniaxial relaxor Sr 0.61 Ba 0.39 Nb 2O 6 :Ce (2006) IEEE T Son Ultrason, 53, pp. 2275-2278; Terabe, K., Takekawa, S., Nakamura, M., Kitamura, K., Higuchi, S., Gotoh, Y., Gruverman, A., Imaging and engineering the nanoscale-domain structure of a Sr 0.61 Ba 0.39 Nb 2O 6 crystal using a scanning force microscope (2002) Appl Phys Lett, 81, pp. 2044-2046; Gainutdinov, R.V., Volk, T.R., Lysova, O.A., Razgonov, I.I., Tolstikhina, A.L., Ivleva, L.I., Recording of domains and regular domain patterns in strontium-barium niobate crystals in the field of atomic force microscope (2009) Appl Phys B Lasers Opt, 95, pp. 505-512; Shur, V.Y.A., Shikhova, V.A., Pelegov, D.V., Ievlev, A.V., Ivleva, L.I., Formation of nanodomain ensembles during polarization reversal in Sr 0.61 Ba 0.39 Nb 2O 6 : Ce single crystals (2011) Phys Sol Stat, 53, pp. 2311-2315; Zelenovskiy, P.S., Shikhova, V.A., Ievlev, A.V., Neradovskiy, M.M., Shur, V.Y.A., Micro-Raman visualization of domain structure in strontium barium niobate single crystals (2012) Ferroelectrics, 439, pp. 33-39; Shur, V.Y.A., Shikhova, V.A., Zelenovskiy, P.S., Pelegov, D.V., Ivleva, L.I., Dec, J., Formation of self-Assembled nanodomain structures in single crystals of uniaxial ferroelectrics lithium niobate, lithium tantalate and strontium-barium niobate (2014) J Adv Dielectr, 4, p. 1450006; Shur, V.Y.A., Pelegov, D.V., Shikhova, V.A., Kuznetsov, D.K., Nikolaeva, E.V., Rumyantsev, E.L., Yakutova, O.V., Granzow, T., Study of the domain structure evolution in single crystals of relaxor ferroelectric Sr 0.61 Ba 0.39 Nb 2O 6 :Ce (2010) Phys Sol Stat, 52, pp. 346-351; Shur, V.Y.A., Pelegov, D.V., Shikhova, V.A., Kuznetsov, D.K., Nikolaeva, E.V., Rumyantsev, E.L., Yakutova, O.V., Granzow, T., Study of domain structure kinetics in SBN crystals using optical methods (2008) Ferroelectrics, 374, pp. 177-184; Shur, V.Y.A., Nano-And micro-domain engineering in normal and relaxor ferroelectrics (2008) Handbook of Advanced Dielectric, Piezoelectric and Ferroelectric Materials: Synthesis, Properties and Applications, pp. 622-669. , In: Z. G. Ye, ed. Woodhead Publishing, Cambridge; Batchko, R.G., Shur, V.Y.A., Fejer, M.M., Byer, R.L., Backswitch poling in lithium niobate for high-fidelity domain patterning and efficient blue light generation (1999) Appl Phys Lett, 75, pp. 1673-1675; Batchko, R.G., Fejer, M.M., Byer, R.L., Woll, D., Wallenstein, R., Shur, V.Y.A., Erman, L., Continuous-wave quasi-phase-matched generation of 60 mW at 465 nm by single-pass frequency doubling of a laser diode in backswitch-poled lithium niobate (1999) Opt Lett, 24, pp. 1293-1295; Shur, V.Y.A., Rumyantsev, E.L., Nikolaeva, E.V., Shishkin, E.I., Fursov, D.V., Batchko, R.G., Eyres, L.A., Byer, R.L., Nanoscale backswitched domain patterning in lithium niobate (2000) Appl Phys Lett, 76, pp. 143-145; Ivleva, L.I., Physicochemical and technological peculiarities of multicomponent oxide crystal growth from melt by modified Stepanov technique (2009) Bull Russ Acad Sci Phys, 73, pp. 1338-1340; Lukasiewicz, T., Swirkowicz, M.A., Dec, J., Hofman, W., Szyrski, W., Strontium-barium niobate single crystals, growth and ferroelectric properties (2008) J Cryst Growth, 310, pp. 1464-1469; Shur, V., Shikhova, V., Ievlev, A., Zelenovskiy, P., Neradovskiy, M., Pelegov, D., Ivleva, L., Nanodomain structures formation during polarization reversal in uniform electric field in strontium barium niobate single crystals (2012) J Appl Phys, 112, p. 064117; Shur, V.Y.A., Gruverman, A.L., Letuchev, V.V., Rumyantsev, E.L., Subbotin, A.L., Domain structure of lead germanate (1989) Ferroelectrics, 98, pp. 29-49; Wilde, J.P., Wilde, R.E., Rayleigh scattering in Sr 0.61 Ba 0.39 Nb 2O 6 (1992) J Appl Phys, 71, pp. 418-421; Shur, V.Y.A., Rumyantsev, E.L., Nikolaeva, E.V., Shishkin, E.I., Fursov, D.V., Batchko, R.G., Eyres, L.A., Sindel, J., Formation of self-organized nanodomain patterns during spontaneous backswitching in lithium niobate (2001) Ferroelectrics, 253, pp. 105-114; Lobov, A.I., Shur, V.Y.A., Kuznetsov, D.K., Negashev, S.A., Pelegov, D.V., Shishkin, E.I., Zelenovskiy, P.S., Discrete switching by growth of nano-scale domain rays under highly-nonequilibrium conditions in lithium niobate single crystals (2008) Ferroelectrics, 373, pp. 99-108; Shur, V.Y.A., Kuznetsov, D.K., Lobov, A.I., Nikolaeva, E.V., Dolbilov, M.A., Orlov, A.N., Osipov, V.V., Formation of self-similar surface nano-domain structures in lithium niobate under highly nonequilibrium conditions (2006) Ferroelectrics, 341, pp. 85-93
Correspondence Address	Kolchina, E.A.; Institute of Natural Sciences, Ural Federal UniversityRussian Federation; email: elizaveta.kolchina@urfu.ru
Publisher	Taylor and Francis Inc.
CODEN	FEROA
Language of Original Document	English
Abbreviated Source Title	Ferroelectrics
Source	Scopus