Add to ORKGThe spin Hamiltonian of tetragonal lamellar antiferromagnets is shown to contain several novel anisotropies. Symmetry allows bond-dependent anisotropic exchange interactions, which lead to (a) interplane mean-field coupling and (b) an in-plane anisotropy which vanishes classically but arises from quantum zero point energy (QZPE). A similar QZPE involving the interplane isotropic interaction prefers collinear spins. Adding also diploar anisotropy, the competition between all these effects explains for the first time the spin structures of many cuprates
We construct a theoretical model for one-dimensional conductors taking into account the effects of s...
We analyze the effects of a large spin-orbit coupling on the magnetic state of a d(1) transition-met...
This thesis covers different problems that arise due to crystal and pseudospin anisotropy present in...
The spin Hamiltonian of tetragonal lamellar antiferromagnets is shown to contain several novel aniso...
The magnetism of lamellar copper oxides, which are the parent materials of high temperature supercon...
The origins of anisotropy in the effective spin Hamiltonian, describing the ground manifold of Hubba...
The magnetic anisotropy of a rectangular Cu-O-Cu bond is investigated in second order of the spin-or...
The low energy spectrum of spin-polarized clusters in layered cuprates is examined. Two types of clu...
This paper derives the anisotropic superexchange interactions from a Hubbard model for excitations w...
Structural distortions in cuprate materials give a natural origin for anisotropies in electron prope...
Two types of spin-polarized clusters confining the motion of oxygen holes in layered cuprates are di...
Sr2Cu3O4Cl2 is a variant of the lamellar copper oxides, containing an extra Cu2+ ion in the center o...
AbstractUniaxially anisotropic antiferromagnets in a field along the easy axis are studied with the ...
To prove that spin-orbit coupling can play a relevant role in determining the magnetic structure of ...
The Cu3O4 layer in Sr2Cu3O4Cl2 is a variant of the square CuO2 lattice of the high-temperature super...
We construct a theoretical model for one-dimensional conductors taking into account the effects of s...
We analyze the effects of a large spin-orbit coupling on the magnetic state of a d(1) transition-met...
This thesis covers different problems that arise due to crystal and pseudospin anisotropy present in...
The spin Hamiltonian of tetragonal lamellar antiferromagnets is shown to contain several novel aniso...
The magnetism of lamellar copper oxides, which are the parent materials of high temperature supercon...
The origins of anisotropy in the effective spin Hamiltonian, describing the ground manifold of Hubba...
The magnetic anisotropy of a rectangular Cu-O-Cu bond is investigated in second order of the spin-or...
The low energy spectrum of spin-polarized clusters in layered cuprates is examined. Two types of clu...
This paper derives the anisotropic superexchange interactions from a Hubbard model for excitations w...
Structural distortions in cuprate materials give a natural origin for anisotropies in electron prope...
Two types of spin-polarized clusters confining the motion of oxygen holes in layered cuprates are di...
Sr2Cu3O4Cl2 is a variant of the lamellar copper oxides, containing an extra Cu2+ ion in the center o...
AbstractUniaxially anisotropic antiferromagnets in a field along the easy axis are studied with the ...
To prove that spin-orbit coupling can play a relevant role in determining the magnetic structure of ...
The Cu3O4 layer in Sr2Cu3O4Cl2 is a variant of the square CuO2 lattice of the high-temperature super...
We construct a theoretical model for one-dimensional conductors taking into account the effects of s...
We analyze the effects of a large spin-orbit coupling on the magnetic state of a d(1) transition-met...
This thesis covers different problems that arise due to crystal and pseudospin anisotropy present in...