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Ferroelectrics Volume 221, 1999 - Issue 1
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Original Articles

Physical basis of the domain engineering in the bulk ferroelectrics

Vladimir Shur Institute of Physics&Applied Mathematics, Ural State University, 620083, Ekaterinburg, Russia
,
Evgenii Rumyantsev Institute of Physics&Applied Mathematics, Ural State University, 620083, Ekaterinburg, Russia
,
Robert Batchko E.L. Ginzton Laboratory, Stanford University, Stanford, CA, 94305
,
Gregory Miller E.L. Ginzton Laboratory, Stanford University, Stanford, CA, 94305
,
Martin Fejer E.L. Ginzton Laboratory, Stanford University, Stanford, CA, 94305
&
Robert Byer E.L. Ginzton Laboratory, Stanford University, Stanford, CA, 94305
Pages 157-167 | Published online: 09 Mar 2011

Citations (49)

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Read on this site (17)

A. V. Makaev, M. S. Kosobokov, D. K. Kuznetsov, M. S. Nebogatikov & V. Ya. Shur. (2022) Anisotropic growth of domain rays in lithium niobate crystal induced by IR laser scanning. Ferroelectrics 592:1, pages 45-51.
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Yu. M. Alikin, A. P. Turygin, M. S. Kosobokov, D. O. Alikin & V. Ya. Shur. (2022) Decay of domains created by local switching on non-polar cut of MgO doped LiNbO3 single crystals. Ferroelectrics 592:1, pages 12-18.
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V. Ya. Shur, E. A. Mingaliev, M. S. Kosobokov & A. V. Makaev. (2020) Domain structure evolution under multiple pulse heating of lithium niobate by infrared laser. Ferroelectrics 560:1, pages 79-85.
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V. Ya. Shur, M. M. Neradovskiy, M. A. Dolbilov, A. I. Lobov, P. S. Zelenovskiy, A. D. Ushakov, E. S. Ushakova, E. Quillier, P. Baldi & M. P. De Micheli. (2015) Formation of Broad Domain Boundary in Congruent Lithium Niobate Modified by Proton Exchange. Ferroelectrics 476:1, pages 146-155.
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V. Ya. Shur. (2013) Domain Nanotechnology in Ferroelectric Single Crystals: Lithium Niobate and Lithium Tantalate Family. Ferroelectrics 443:1, pages 71-82.
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V.YA. Shur, E.L. Rumyantsev & E.V. Shishkina. (2013) Analysis of the Switching Current Data in Uniaxial Ferroelectrics. Ferroelectrics 443:1, pages 105-115.
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V.Ya. Shur, E.I. Shishkin, E.V. Nikolaeva, M.S. Nebogatikov, D.O. Alikin, P.S. Zelenovskiy, M.F. Sarmanova & M.A. Dolbilov. (2010) Study of Nanoscale Domain Structure Formation Using Raman Confocal Microscopy. Ferroelectrics 398:1, pages 91-97.
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D.K. Kuznetsov, V.Ya. Shur, E.A. Mingaliev, S.A. Negashev, A.I. Lobov, E.L. Rumyantsev & P.A. Novikov. (2010) Nanoscale Domain Structuring in Lithium Niobate Single Crystals by Pulse Laser Heating. Ferroelectrics 398:1, pages 49-54.
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P.S. Zelenovskiy, V.Ya. Shur, P. Bourson, M.D. Fontana, D.K. Kuznetsov & E.A. Mingaliev. (2010) Raman Study of Neutral and Charged Domain Walls in Lithium Niobate. Ferroelectrics 398:1, pages 34-41.
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V. Ya. Shur. (2010) Domain Nanotechnology in Lithium Niobate and Lithium Tantalate Crystals. Ferroelectrics 399:1, pages 97-106.
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D.O. Alikin, E.I. Shishkin, E.V. Nikolaeva, V.Ya. Shur, M.F. Sarmanova, A.V. Ievlev, M.S. Nebogatikov & N.V. Gavrilov. (2010) Formation of Self-Assembled Domain Structures in Lithium Niobate Modified by Ar Ions Implantation. Ferroelectrics 399:1, pages 35-42.
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C. Canalias, V. Pasiskevicius & F. Laurell. (2006) Periodic Poling of KTiOPO4: From Micrometer to Sub-Micrometer Domain Gratings. Ferroelectrics 340:1, pages 27-47.
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V. Ya. Shur. (2006) Domain Engineering in Lithium Niobate and Lithium Tantalate: Domain Wall Motion. Ferroelectrics 340:1, pages 3-16.
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FARSHAD YAZDANI, MICHAELL. SUNDHEIMER & ANDERSONS. L. GOMES. (2004) The Internal Electric Field and Backswitching in Congruent Lithium Niobate. Ferroelectrics 304:1, pages 105-109.
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V. Ya. Shur, E.L. Rumyantsev, E.V. Nikolaeva, E.I. Shishkin, D.V. Fursov, R.G. Batchko, L.A. Eyres, M.M. Fejer, R.L. Byer & J. Sindel. (2001) Formation of self-organized nanodomain patterns during spontaneous backswitching in lithium niobate. Ferroelectrics 253:1, pages 105-114.
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V. Ya. Shur, E.L. Rumyantsev, E.V. Ndcolaeva, E.I. Shishkin, R.G. Batchko, M.M. Fejer & R.L. Byer. (2001) Recent achievements in domain engineering in lithium niobate and lithium tantalate. Ferroelectrics 257:1, pages 191-202.
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V. Ya. Shur, E.L Rumyantsev, E.V Nikolaeva, E.I. Shishkin, R.G. Batchko, G.D. Miller, M.M. Fejer & R.L. Byer. (2000) Regular ferroelectric domain array in lithium niobate crystals for nonlinear optic applications. Ferroelectrics 236:1, pages 129-144.
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Articles from other publishers (32)

V Ya Shur, E A Mingaliev, M S Kosobokov & A V Makaev. (2019) Formation of the maze domain structures in lithium niobate as a result of multiple pulse irradiation by infrared laser. IOP Conference Series: Materials Science and Engineering 699:1, pages 012052.
Crossref
B Kaeswurm, V Segouin, L Daniel & K G Webber. (2018) The anhysteretic polarisation of ferroelectrics. Journal of Physics D: Applied Physics 51:7, pages 075305.
Crossref
Wei-Yi Chang, Ching-Chang Chung, Zhongyuan Yuan, Chih-Hao Chang, Jian Tian, Dwight Viehland, Jie-Fang Li, Jacob L. Jones & Xiaoning Jiang. (2018) Patterned nano-domains in PMN-PT single crystals. Acta Materialia 143, pages 166-173.
Crossref
V. Ya. Shur, A. A. Esin, M. A. Alam & A. R. Akhmatkhanov. (2017) Superfast domain walls in KTP single crystals. Applied Physics Letters 111:15.
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J.E. Muñoz Santiuste, V. Lavín, U.R. Rodríguez-Mendoza, M.M. Tardio & R. Ramírez-Jiménez. (2017) Pressure-induced effects on the spectroscopic properties of Nd 3+ in MgO:LiNbO 3 single crystal. A crystal field approach. Journal of Luminescence 184, pages 293-303.
Crossref
V. Ya. Shur, M. S. Kosobokov, E. A. Mingaliev & V. R. Karpov. (2015) Formation of the domain structure in CLN under the pyroelectric field induced by pulse infrared laser heating. AIP Advances 5:10.
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Vladimir Shur, Andrey Akhmatkhanov, Alexey Lobov & Anton Turygin. (2015) Self-assembled domain structures: From micro- to nanoscale. Journal of Advanced Dielectrics 05:02, pages 1550015.
Crossref
V. Ya. Shur & P. S. Zelenovskiy. (2014) Micro- and nanodomain imaging in uniaxial ferroelectrics: Joint application of optical, confocal Raman, and piezoelectric force microscopy. Journal of Applied Physics 116:6.
Crossref
V. Ya. Shur, V. A. Shikhova, P. S. Zelenovskiy, D. V. Pelegov, L. I. Ivleva & J. Dec. (2014) Formation of self-assembled nanodomain structures in single crystals of uniaxial ferroelectrics lithium niobate, lithium tantalate and strontium–barium niobate. Journal of Advanced Dielectrics 04:01, pages 1450006.
Crossref
V. Ievlev, V. Shur, M. Sumets & A. Kostyuchenko. (2013) Electrical properties and local domain structure of LiNbO3 thin film grown by ion beam sputtering method. Acta Metallurgica Sinica (English Letters) 26:5, pages 630-634.
Crossref
Wei-Yi Chang, Wenbin Huang, Abhijeet Bagal, Chih-Hao Chang, Jian Tian, Pengdi Han & Xiaoning Jiang. (2013) Study on dielectric and piezoelectric properties of 0.7 Pb(Mg 1/3 Nb 2/3 )O 3 -0.3 PbTiO 3 single crystal with nano-patterned composite electrode . Journal of Applied Physics 114:11, pages 114103.
Crossref
Doru C. Lupascu & Maxim I. Morozov. 2013. Ceramics Science and Technology. Ceramics Science and Technology 729 790 .
V. Ya. Shur, E. A. Mingaliev, V. A. Lebedev, D. K. Kuznetsov & D. V. Fursov. (2013) Polarization reversal induced by heating-cooling cycles in MgO doped lithium niobate crystals. Journal of Applied Physics 113:18.
Crossref
V. Ya. Shur, D. K. Kuznetsov, E. A. Mingaliev, E. M. Yakunina, A. I. Lobov & A. V. Ievlev. (2011) In situ investigation of formation of self-assembled nanodomain structure in lithium niobate after pulse laser irradiation . Applied Physics Letters 99:8, pages 082901.
Crossref
Doru C. Lupascu & Maxim I. Morozov. 2010. Ceramics Science and Technology. Ceramics Science and Technology 729 790 .
D. A. Ivanov, T. Yu. Ivanova, O. S. Grunskii & Yu. S. Tver’yanovich. (2010) Effect of defects of the domain structure on the optical properties of ferroelectric crystals. Glass Physics and Chemistry 36:1, pages 10-16.
Crossref
T. Breczko, R. M. Grechishkin, S. E. Ilyashenko, O. M. Korpusov, O. V. Malyshkina & N. O. Mamkina. (2009) Polarization-optical study of the Barkhausen effect and domain structure of lead germanate. Physics of the Solid State 51:7, pages 1497-1499.
Crossref
Kh. Hassani, M. Sutton, M. Holt, Y. Zuo & D. Plant. (2008) X-ray diffraction imaging of strain fields in a domain-inverted LiTaO3 crystal. Journal of Applied Physics 104:4.
Crossref
R. Hammoum, M.D. Fontana, P. Bourson & V.Y. Shur. (2007) Characterization of PPLN-microstructures by means of Raman spectroscopy. Applied Physics A 91:1, pages 65-67.
Crossref
B.M. Assouar, B. Vincent & H. Moubchir. (2008) Phononic crystals based on LiNbO 3 realized using domain inversion by electron-beam irradiation . IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control 55:2, pages 273-278.
Crossref
S. Stivala, A. Pasquazi, L. Colace, G. Assanto, A. C. Busacca, M. Cherchi, S. Riva-Sanseverino, A. C. Cino & A. Parisi. (2007) Guided-wave frequency doubling in surface periodically poled lithium niobate: competing effects. Journal of the Optical Society of America B 24:7, pages 1564.
Crossref
Vladimir Ya. Shur. 2007. Frontiers of Ferroelectricity. Frontiers of Ferroelectricity 199 210 .
Alessandro Busacca, Matteo Cherchi, Claudia Santini, Stefano Riva-Sanseverino, Antonino Parisi, Alfonso Cino, Salvatore Stivala, Alessia Pasquazi, Lorenzo Colace & Gaetano Assanto. (2006) Nanopatterned Ferroelectric Crystals for Parametric Generation. Nanopatterned Ferroelectric Crystals for Parametric Generation.
C. Canalias, S. Wang, V. Pasiskevicius & F. Laurell. (2006) Nucleation and growth of periodic domains during electric field poling in flux-grown KTiOPO4 observed by atomic force microscopy. Applied Physics Letters 88:3.
Crossref
Vladimir Ya. Shur. (2006) Kinetics of ferroelectric domains: Application of general approach to LiNbO3 and LiTaO3. Journal of Materials Science 41:1, pages 199-210.
Crossref
G. Sylvester, P. Silva, J. Moreno & M. Zambra. (2005) Ferroelectric Thick Film in Insulator Sleeve on a Low Energy Plasma Focus. Ferroelectric Thick Film in Insulator Sleeve on a Low Energy Plasma Focus.
A. Busacca, M. Cherchi, S.R. Sanseverino, A.C. Cino, A. Parisi, G. Assanto, M. Cichocki, F. Caccavale, D. Calleyo & A. Morbiato. (2005) Surface periodic poling in lithium niobate and lithium tantalate. Surface periodic poling in lithium niobate and lithium tantalate.
Gary D. Landry & Theresa A. Maldonado. (2004) Counterpropagating quasi-phase matching: a generalized analysis. Journal of the Optical Society of America B 21:8, pages 1509.
Crossref
C. Canalias, V. Pasiskevicius, R. Clemens & F. Laurell. (2003) Submicron periodically poled flux-grown KTiOPO4. Applied Physics Letters 82:24, pages 4233-4235.
Crossref
R.L. Byer. (2000) Nonlinear optics and solid-state lasers: 2000. IEEE Journal of Selected Topics in Quantum Electronics 6:6, pages 911-930.
Crossref
V. Ya. Shur, E. L. Rumyantsev, E. V. Nikolaeva, E. I. Shishkin, D. V. Fursov, R. G. Batchko, L. A. Eyres, M. M. Fejer & R. L. Byer. (2000) Nanoscale backswitched domain patterning in lithium niobate. Applied Physics Letters 76:2, pages 143-145.
Crossref
V.Y. Shur, R.G. Batchko, E.L. Rumyantsev, G.D. Miller, M.M. Fejer & R.L. Byer. (1998) Domain engineering: periodic domain patterning in lithium niobate. Domain engineering: periodic domain patterning in lithium niobate.

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