Spin and Charge Fluctuations in Strongly Correlated Systems
... electron systems. In this thesis we study low-energy effective theory and phase transitions of spin and charge in a variety of strongly correlated systems. First, we study effective theory of magnetic phase transition in Sp(4) spin system and iron-based superconductors. Quantum phase transitions bey ...
... electron systems. In this thesis we study low-energy effective theory and phase transitions of spin and charge in a variety of strongly correlated systems. First, we study effective theory of magnetic phase transition in Sp(4) spin system and iron-based superconductors. Quantum phase transitions bey ...
Vezentsev_Modified_layered_11 (1)
... found by natural mineral sorbents: various clays, zeolites, etc. The advantage of such materials compared to other sorbents is in the first place their natural origin, cheapness, availability of mining and processing, a unique set of technological properties – sorption, ion exchange, molecular-sieve ...
... found by natural mineral sorbents: various clays, zeolites, etc. The advantage of such materials compared to other sorbents is in the first place their natural origin, cheapness, availability of mining and processing, a unique set of technological properties – sorption, ion exchange, molecular-sieve ...
1 mol H 2
... products formed by a chemical reaction. It is based on the Law of Conservation of Mass: the amount of matter present at the end of a reaction is the same as was present at the beginning. The total mass of the reactants equals the mass of the products. ...
... products formed by a chemical reaction. It is based on the Law of Conservation of Mass: the amount of matter present at the end of a reaction is the same as was present at the beginning. The total mass of the reactants equals the mass of the products. ...
Wulff construction and grain boundary in HCP crystals
... Figure 11: Bonds of twisted grain boundary between the two planes in bond constrained to the maximal length of 1.1: (a)- not rotated, (b) – rotation of 2 degrees, (c) rotation of 7 degree. The pattern in the 2 degrees spilt but conserve. The photos are in scale and in the same axis direction. b. Fin ...
... Figure 11: Bonds of twisted grain boundary between the two planes in bond constrained to the maximal length of 1.1: (a)- not rotated, (b) – rotation of 2 degrees, (c) rotation of 7 degree. The pattern in the 2 degrees spilt but conserve. The photos are in scale and in the same axis direction. b. Fin ...
St_Pierre_2002 - Scientific and Clinical Applications of Magnetic
... – Applying field causes aggregation. Proximity of particles to each other results in mutual induction of dipole moments even in zero applied field. Attractive magnetic interactions within aggregate ...
... – Applying field causes aggregation. Proximity of particles to each other results in mutual induction of dipole moments even in zero applied field. Attractive magnetic interactions within aggregate ...
spin exchange optical pumping of neon and its applications
... pleasure to come visit the A level. I would also like to thank Claude Champagne of the purchasing department for always taking the time to try and make all of us smile. I would also like to thank Regina Savadge, Ellen Webster Synakowski, and Mary Delorenzo as the vanguards of the atomic physics gro ...
... pleasure to come visit the A level. I would also like to thank Claude Champagne of the purchasing department for always taking the time to try and make all of us smile. I would also like to thank Regina Savadge, Ellen Webster Synakowski, and Mary Delorenzo as the vanguards of the atomic physics gro ...
Geometrical frustration
In condensed matter physics, the term geometrical frustration (or in short: frustration) refers to a phenomenon, where atoms tend to stick to non-trivial positions or where, on a regular crystal lattice, conflicting inter-atomic forces (each one favoring rather simple, but different structures) lead to quite complex structures. As a consequence of the frustration in the geometry or in the forces, a plenitude of distinct ground states may result at zero temperature, and usual thermal ordering may be suppressed at higher temperatures. Much studied examples are amorphous materials, glasses, or dilute magnets.The term frustration, in the context of magnetic systems, has been introduced by Gerard Toulouse (1977). Indeed, frustrated magnetic systems had been studied even before. Early work includes a study of the Ising model on a triangular lattice with nearest-neighbor spins coupled antiferromagnetically, by G. H. Wannier, published in 1950. Related features occur in magnets with competing interactions, where both ferro- as well as antiferromagnetic couplings between pairs of spins or magnetic moments are present, with the type of interaction depending on the separation distance of the spins. In that case commensurability, such as helical spin arrangements may result, as had been discussed originally, especially, by A. Yoshimori, T. A. Kaplan, R. J. Elliott, and others, starting in 1959, to describe experimental findings on rare-earth metals. A renewed interest in such spin systems with frustrated or competing interactions arose about two decades later, beginning in the 70s of the 20th century, in the context of spin glasses and spatially modulated magnetic superstructures. In spin glasses, frustration is augmented by stochastic disorder in the interactions, as may occur, experimentally, in non-stoichiometric magnetic alloys. Carefully analyzed spin models with frustration include the Sherrington-Kirkpatrick model, describing spin glasses, and the ANNNI model, describing commensurability magnetic superstructures.