By Karin M. Rabe, Charles H. Ahn, Jean-Marc Triscone
ISBN-10: 3540345906
ISBN-13: 9783540345909
During the earlier twenty years, progressive breakthroughs have happened within the figuring out of ferroelectric fabrics, either from the viewpoint of thought and scan. First rules techniques, together with the Berry section formula of ferroelectricity, now enable actual, quantitative predictions of fabric houses, and unmarried crystalline skinny motion pictures at the moment are on hand for primary stories of those fabrics. moreover, the necessity for prime dielectric consistent insulators and nonvolatile stories in semiconductor purposes has encouraged a renaissance within the research of those fabrics. This e-book addresses the paradigmatic shifts in knowing caused by means of those breakthroughs, together with the dignity of novel fabrication equipment of unmarried crystalline ferroelectric skinny motion pictures and nanoscale functions of those fabrics, and new theoretical equipment corresponding to the powerful Hamiltonian process and density practical idea. A booklet for practising scientists in addition to graduate students.
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Lett. 87, 277601 (2001) 7 [12] S. C. Abrahams: Structurally based predictions of ferroelectricity in seven inorganic materials with space group P ba2 and two experimental confirmations, Acta Crystallogr. B 45, 228 (1989) 7 [13] E. Kroumova, M. I. Aroyo, J. M. Perez-Mato: Prediction of new displacive ferroelectrics through systematic pseudosymmetry search: Results for materials with P ba2 and P mc2(1) symmetry, Acta Crystallogr. B 58, 921 (2002) 7 [14] C. Capialls, M. I. Aroyo, J. M. Perez-Mato: Search for new P na2(1) ferroelectrics, Ferroelectrics 301, 203 (2004) 7 [15] K.
Phys. Crystallogr. 11, 757 (1967) 23 [97] B. A. Tuttle, D. A. Payne: The effects of microstructure on the electrocaloric properties of Pb(Zr,Sn,Ti)O3 ceramics, Ferroelec. 37, 603 (1981) 23 [98] A. S. Mischenko, Q. Zhang, J. F. Scott, R. W. Whatmore, N. D. 05 O3 , Science 311, 1270 (2006) 23 [99] J. F. Scott: Applications of modern ferroelectrics, Science 315, 954 (2007) 23 Index antiferroelectric, 13 applications, 20 atomic force microscopy, 22 Aurivillius phase, 15 BaAl2 O4 , 17 BaTiO3 , 10, 12 Berry phase, 2, 6 Bi2 WO6 , 15 Bi4 Ti3 O12 , 15 BiFeO3 , 14 boracite, 17 Born effective charge, 6 CaTiO3 , 8, 10 charge disproportionation, 19 charge-density wave, 19 charge-ordering phenomenon, 19 crystal structure, 6 depolarization field, 19 DyScO3 , 12 electronic ferroelectric, 19 epitaxial strain, 12 ferroelectric, 1 electronic, 19 improper, 7, 18 incipient, 12 field-effect, 22 films, 19 first-principles study, 7 Gd2 (MoO4 )3 , 17 GdFeO3 , 12 hysteresis, 2 artifacts, 4 Sawyer–Tower circuit, 3 improper ferroelectric, 7, 18 incipient ferroelectric, 12 KNO3 , 18 KTaO3 , 12 Landau theory, 7, 11 latent heat, 7 Li2 Ge7 O15 , 17 LiNaGe4 O9 , 17 LiNbO3 , 10, 14 LuFe2 O4 , 18, 19 Lyddane–Sachs–Teller relation, 7 memories, 21 MEMS, 20 Mn3 TeO6 , 17 morphotropic phase boundary (MPB), 13 nanoparticle, 20 nanostructures, 21 neutron scattering, 7 optical spectroscopy, 7 Pb5 Ge3 O11 , 17 Pb(Sc1/2 Nb1/2 )O3 (PSN), 13 30 Karin M.
Rev. Lett. 78, 2397 (1997) 12, 13 [33] D. A. Tenne, X. X. Xi, Y. L. Li, L. Q. Chen, A. Soukiassian, M. H. Zhu, A. R. James, J. Lettieri, D. G. Schlom, W. Tian, X. Q. Pan: Absence of lowtemperature phase transitions in epitaxial BaTiO3 thin films, Phys. Rev. B 69, 174101 (2004) 12 [34] J. H. Haeni, P. Irvin, W. Chang, R. Uecker, P. Relche, Y. L. Li, S. Choudhury, W. Tian, M. E. Hawley, B. Craigo, A. K. Tagantsev, X. Q. Pan, S. K. Streiffer, L. Q. Chen, S. W. Kirchoefer, J. Levy, D. G. Schlom: Room-temperature ferroelectricity in strained SrTiO3 , Nature 430, 758 (2004) 12, 13 [35] A.
Physics of Ferroelectrics: A Modern Perspective (Topics in Applied Physics) by Karin M. Rabe, Charles H. Ahn, Jean-Marc Triscone
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