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Ferroelectrics Volume 508, 2017 - Issue 1: Proceedings of Second International Workshop Modern Nanotechnologies (IWMN-2016), Part I
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Original Articles

Electric field distribution during polarization reversal in lithium niobate with inhomogeneous bulk conductivity

V. I. PryakhinaSchool of Natural Sciences and Mathematics, Ural Federal University, Ekaterinburg, RussiaCorrespondence[email protected]
,
D. O. AlikinSchool of Natural Sciences and Mathematics, Ural Federal University, Ekaterinburg, Russia
,
S. A. NegashevSchool of Natural Sciences and Mathematics, Ural Federal University, Ekaterinburg, Russia
&
V. Ya. ShurSchool of Natural Sciences and Mathematics, Ural Federal University, Ekaterinburg, Russia
Pages 26-30 | Received 29 Aug 2016, Accepted 21 Nov 2016, Published online: 18 Apr 2017

References

  • V. Ya. Shur, Nano- and micro-domain engineering in normal and relaxor ferroelectrics. In: Z.-G. Ye, ed. Handbook of advanced dielectric, piezoelectric and ferroelectric materials. Synthesis, properties and applications. Cambridge: Woodhead Publishing; 622–669 (2008).
  • T. Volk, M. Wöhlecke, Lithium niobate: defects, photorefraction and ferroelectric switching. Berlin: Springer; (2008).
  • R. S. Weis, T. K. Gaylord, Lithium niobate: summary of physical properties and crystal structure. Appl Phys A. 37, 191–203 (1985).
  • V. Ya. Shur, Domain engineering in lithium niobate and lithium tantalate: Domain wall motion. Ferroelectrics. 340, 3–16 (2006).
  • V. Ya. Shur, E. L. Rumyantsev, E. V. Nikolaeva, E. I. Shishkin, R. G. Batchko, G. D. Miller, M. M. Fejer, R. L. Byer, Regular ferroelectric domain array in lithium niobate crystals for nonlinear optic applications. Ferroelectrics. 236, 129–144 (2000).
  • P. S. Bednyakov, T. Sluka, A. K. Tagantsev, D. Damjanovic, N. Setter, Formation of charged ferroelectric domain walls with controlled periodicity. Sci Rep. 5, 15819 (2015).
  • E. A. Eliseev, A. N. Morozovska, G. S. Svechnikov, V. Gopalan, V. Ya. Shur, Static conductivity of charged domain wall in uniaxial ferroelectric-semiconductors. Phys Rev B. 83, 235313 (2011).
  • M. Schroder, A. Haussmann, A. Thiessen, E. Soergel, T. Woike, L. M. Eng, Conducting domain walls in lithium niobate single crystals. Adv Funct Mater. 22, 3936–3944 (2012).
  • V. Ya. Shur, E. L. Rumyantsev, E. V. Nikolaeva, E. I. Shishkin, Formation and evolution of charged domain walls in congruent lithium niobate. Appl Phys Lett. 77, 3636–3638 (2000).
  • S. Wada, Domain wall engineering in lead-free piezoelectric materials. Ferroelectrics. 389, 3–9 (2009).
  • J. Seidel, L. W. Martin, Q. He, Q. Zhan, Y.-H. Chu, A. Rother, M. E. Hawkridge, P. Yu. Maksymovych, M. Gajek, N. Balke, S.V. Kalinin, S. Gemming, F. Wang, G. Catalan, J. F. Scott, N. A. Spaldin, J. Orenstein, R. Ramesh, Conduction at domain walls in oxide multiferroics. Nat Mater. 8, 229–234 (2009).
  • M. M. Neradovskiy, V. Ya. Shur, E. A. Mingaliev, P. S. Zelenovskiy, E. S. Ushakova, H. Tronche, P. Baldi, M.P. De Micheli, Investigation of domain kinetics in congruent lithium niobate modified by proton exchange. Ferroelectrics. 496, 110–119 (2016).
  • V. Ya. Shur, D. O. Alikin, A. V. Ievlev, M. A. Dolbilov, M. F. Sarmanova, N. V. Gavrilov, Formation of nanodomain structures during polarization reversal in congruent lithium niobate implanted with Ar ions. Trans Ultrason Ferroelectr Freq Control. 59, 1934–1941 (2012).
  • V. I. Pryakhina, V. Ya. Shur, D. O. Alikin, S. A. Negashev, Polarization reversal in MgO:LiNbO3 single crystals modified by plasma-source ion irradiation. Ferroelectrics. 439, 20–32 (2012).
  • V. I. Pryakhina, D. O. Alikin, I. S. Palitsin, S. A. Negashev, V. Ya. Shur, Charged domain walls in lithium niobate with modified bulk conductivity. Ferroelectrics. 476, 109–116 (2015).
  • V. I. Pryakhina, D. O. Alikin, S. A. Negashev, V. Ya. Shur, Domain kinetics in LiNbO3 and LiTaO3 with modified bulk conductivity. Ferroelectrics. 496, 79–84 (2016).
  • V. Ya. Shur, N. V. Korovina, A. L. Gruverman, Time dependence and distribution of the internal field in lead germanate. Sov Phys Tech Phys. 30, 1204–1205 (1985).

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