Low Dimensional Magnetism 1st Edition by A N Vasiliev, O S Volkova, E A Zvereva ISBN 1000522520 9781000527360
Original price was: $50.00.$35.00Current price is: $35.00.
Low Dimensional Magnetism 1st Edition by A N Vasiliev, O S Volkova, E A Zvereva – Ebook PDF Instant Download/Delivery: 1000522520, 9781000527360
Full download Low Dimensional Magnetism 1st Edition after payment
Product details:
ISBN 10: 1000522520
ISBN 13: 9781000527360
Author: A N Vasiliev, O S Volkova, E A Zvereva
Low-dimensional magnetism physics involves the search for new magnetic compounds and improving their characteristics to meet the needs of innovative technologies. A comprehensive overview of key materials, their formulation data and characteristics are detailed by the author. Key selling features: Explores dominant mechanisms of magnetic interaction to determine the parameters of exchange interactions in new magnetic materials. Describes how magnetism and superconductivity not only compete, but also “help” each other. Details characteristics of key materials in the magnetic subsystem. Results of several internationally renowned research groups are included and cited. Suitable for a wide range of readers in physics, materials science, and chemistry interested in the problems of the structure of matter.
Low Dimensional Magnetism 1st Table of contents:
1. Magnetic clusters
1.1. Dimers
1.1.1. Spin gap in cesium divanadate
1.1.2. Mineral urusovite
1.1.3. Copper trifluoroacetate
1.2. Trimers
1.2.1. Trimers of octahedra in rubidium–copper diphosphate
1.2.2. Trimer plaquettes in sodium–copper germanate
1.3. Tetramers
1.4. Bose–Einstein condensation of magnons
1.4.1. Pigment of the Han Dynasty
1.4.2. Barium–vanadium disilicate
2. Quasi-one dimensional magnetics
2.1. Homogeneous chain of half-integer spins
2.1.1. Rubidium–copper molybdate
2.1.2. Vanadyl diacetate
2.2. A homogeneous chain with competing interactions
2.2.1. Lithium–copper zirconate
2.2.2. Isostructural cuprates of lithium and sodium
2.2.3. Rubidium–copper–aluminium phosphate
2.2.4. Cesium–copper vanadium-diphosphate
2.2.5. Bismuth–iron selenite–oxochloride
2.3. Alternating chain of half-integer spins
2.4. A homogeneous chain of integer spins
2.5. Spin–Peierls transition
2.6. Orbital mechanism of dimerization of the spin chain
3. Spin ladders
3.1. Spin ladders with an odd number of legs:
3.2. Spin ladders with an even number of legs:a spin liquid with an energy gap in the spectrum of magnetic excitations
3.3. Charge mechanism of dimerization of the spin ladder
3.4. Combinations of spin chains and spin ladders
3.5. Frame structures
4. Quasi-two dimensional magnets with a square lattice
4.1. Quantum ground state
4.2. The Berezinsky–Kosterlitz–Thouless transition
4.3. Manganese chromate
5. Quasi-two dimensional magnetics with a triangular lattice
5.1. Geometrical frustration
5.1.1. Lithium–nickel tellurate
5.1.2. Barium–cobalt antimonide
5.1.3. Delafossites
5.2. BKT transition in two-dimensional magnetic materials with a triangular lattice
5.2.1. Chiral and non-chiral polymorphs of manganese antimonate
5.2.2. Lithium–iron antimonate
6. Quasi-two dimensional magnets with a honeycomb magnetic lattice
6.1. Frustration due to the competition of exchange interactions
6.2. Kitaev model
6.3. Experimental realization of Kitaev’s model
6.4. BKT transition in the honeycomb lattice
6.5. Antimonates and tellurates of transition metals
6.5.1. Nickel antimonates
6.5.2. Cobalt antimonates
7. Quasi-two-dimensional magnets with triangular motifs in the structure
7.1. Frustration of exchange interactions in the lattice of kagome and in diamond chains
7.1.1. Herbertsmithite and vésigniéite
7.1.2. The combination of kagome and triangular layers in quasi-2D cobaltites
7.1.3. Langasites
7.1.4. Dugganites
7.2. Plateau of magnetization in the lattice of diamond chains
7.3. Shastry–Sutherland lattice
7.4. Potassium carbonate–manganese vanadate
7.5. Sodium–nickel phosphate hydroxide
People also search for Low Dimensional Magnetism 1st:
low dimensional magnetism
low magnetism
low magnetic field
low dimensional manifolds
low-dimensional magnetism
Tags: A N Vasiliev, O S Volkova, E A Zvereva, Dimensional, Magnetism