Theoretical studies of C1 on Ag(100) surface by Sw-X
                    <sub>α</sub>
                    -SCF method

On the basis of Hollstein-Primakoff transformation for the Heisenberg model with anisotropy a new theoretical description of the spin reorientation transition in ferromagnetic systems is given. An effective Hamiltonian is derived, which is identical with the scalar G4-lattice model of structural phase transitions. Especially the appearance of precursor clusters of the low temperature phase above the phase transition point is discussed. If the reorientation transition takes place at sufficiently low temperatures the existence of defect pinned cluster states can lead to glass-like behaviour. Experimental consequences are considered. I n relation to the anomalous properties of high-T, superconductors special attention is paid to the importance of a crossover from a soft mode or mean-field-like behaviour into the regime of cluster fluctuations in strongly non-linear dynamical systems.Auf der Grundlage der Hollstein-Primakoff-Transformation fur das Heisenberg-Modell mit Anisotropie wird eine neue theoretische Beschreibung fur den Spinreorientierungsubergang gegeben. Es wird ein effektiver Hamiltonoperator abgeleitet, der mit dem skalaren G4-Gittermodell struktureller Phasenubergange identisch ist. Besonders wird das Auftreten von Clustern der Nahordunng der Tieftemperaturphase oberhalb des Phasenubergangspunktes diskutiert. Falls der Reorientierungsubergang bei genugend tiefen Temperaturen stattfindet, konnen die Defektgepinnten Cluster-Zustiinde glasartiges Verhalten verursachen. Daraus sich ergebende experimentelle Konsequenzen werden betrachtet. Die Bedeutung eines Crossover vom Molekularfeldoder weichen Moden-Verhalten zum Regime der Clusterfluktuationen in stark nichtlinearen dynamischen Systemen wird im Zusammenhang mit den anomalen Eigenschaften der Hochtemperatur-Supraleiter hervorgehoben.

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On the relation between structural phase transitions and spin reorientation transition in anisotropic ferromagnets

Schreiber

Bläsing

Flach

1989

Physica Status Solidi (b)

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First-Principles Study on Electronic Structures and Optical Properties of Doped Ag Crystal

Cao

Chen

Jia

et al. 2012

Chinese Phys. Lett.

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By using the first-principles calculation based on density functional theory, we investigate the electronic structures and optical properties of Cl-doped Ag crystal. The results show that the electronic structure of Cl-doped Ag crystal depends on the doped concentration and the site of impurity defect. Interestingly, the calculated adsorption spectra of Cl-doped Ag crystal show isotropy or anisotropy coincide with the symmetry of Ag crystal. These features are discussed to provide guidance to experimental efforts for Ag-based nanoeletronic devices.

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Theoretical studies of C1 on Ag(100) surface by Sw-X _α -SCF method

Cited by 2 publications

References 10 publications

On the relation between structural phase transitions and spin reorientation transition in anisotropic ferromagnets

On the relation between structural phase transitions and spin reorientation transition in anisotropic ferromagnets

First-Principles Study on Electronic Structures and Optical Properties of Doped Ag Crystal

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Theoretical studies of C1 on Ag(100) surface by Sw-X α -SCF method

Cited by 2 publications

References 10 publications

On the relation between structural phase transitions and spin reorientation transition in anisotropic ferromagnets

On the relation between structural phase transitions and spin reorientation transition in anisotropic ferromagnets

First-Principles Study on Electronic Structures and Optical Properties of Doped Ag Crystal

Contact Info

Product

Resources

About

Theoretical studies of C1 on Ag(100) surface by Sw-X _α -SCF method