Colossal Magnetoresistive Manganites
Springer Science & Business Media, Jan 1, 2004 - Science - 447 pages
This book is a comprehensive account of the present understanding of an important class of perovskite oxide materials with potential industrial applications. The chapters are written by well-known scientists who are on the forefront of the field and have directly contributed to its recent progress. Special care has been taken to maintain a balance between the space devoted to new experimental results and that devoted to recent theoretical developments. The book contains recent experimental and theoretical results on colossal magnetoresistive (CMR) manganites not covered by any other book in the field, and hence this will be very beneficial to graduate students and researchers in condensed matter and applied physics, materials science and solid state chemistry.
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A-type anisotropy antiferromagnetic band behavior bilayer manganites Bragg peak C-type calculated CE-type charge and orbital charge ordering charge-ordered charge/orbital clusters CMR effect coexistence colossal magnetoresistance compounds correlations Coulomb interaction coupling crystal Dagotto decreases degrees of freedom density discussed dispersion doping double exchange eg electrons exchange interaction experimental Fermi surface ferromagnetic Figure fluctuations FM metallic FM phase function Hamiltonian high temperature hole hopping inhomogeneities insulating intensity ions Jahn-Teller distortion lattice distortion layered Lett long-range low temperature low-energy magnetic excitations magnetic field manganites martensitic Mn3+ Mn4+ modes neutron scattering observed optical orbital degrees orbital ordering orthorhombic paramagnetic parameters perovskite phase diagram phase separation phonon Phys physics plane polaron properties pseudogap quantum range regions resistivity samples shown in Fig shows spectral weight spin dynamics spin wave spin-wave structure symmetry temperature dependence theoretical Tokura transition x-ray