Doped transition metal oxides: networks of local distortions correlated by elastic fields. Bishop, A. Journal of Physics and Chemistry of Solids, 65(8-9):1449–1454, 2004.
Doped transition metal oxides: networks of local distortions correlated by elastic fields [link]Paper  doi  abstract   bibtex   
We review a perspective of doped transition metal oxides as correlated electron materials governed by functional multiscale complexity. We emphasize several themes: the prevalence of intrinsic complexity realized in the coexistence or competition among broken-symmetry ground states; the origin of landscapes of spatio-temporal patterns in coupled spin, charge and lattice (orbital) degrees-of-freedom; the relevance of co-existing short- and long-range forces; and the importance of multiscale complexity for key materials properties, including multifunctional 'electro-elastic' materials.
@article{bishop_doped_2004,
	title = {Doped transition metal oxides: networks of local distortions correlated by elastic fields},
	volume = {65},
	issn = {00223697},
	url = {http://dx.doi.org/10.1016/j.jpcs.2003.07.002},
	doi = {10.1016/j.jpcs.2003.07.002},
	abstract = {We review a perspective of doped transition metal oxides as correlated electron materials governed by functional multiscale complexity. We emphasize several themes: the prevalence of intrinsic complexity realized in the coexistence or competition among broken-symmetry ground states; the origin of landscapes of spatio-temporal patterns in coupled spin, charge and lattice (orbital) degrees-of-freedom; the relevance of co-existing short- and long-range forces; and the importance of multiscale complexity for key materials properties, including multifunctional 'electro-elastic' materials.},
	number = {8-9},
	journal = {Journal of Physics and Chemistry of Solids},
	author = {Bishop, A.},
	year = {2004},
	pages = {1449--1454}
}

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