Add to ORKGA wide range of experimental, semiempirical, and theoretical values have been reported in the literature for the magnetic coupling parameters of the two-leg ladder compound SrCu2O3. We apply quantum chemical and density functional techniques to calculate accurate N-electron wave functions or densities for two different Cu2O7 clusters that represent the leg (Ji) and rung (J') of the ladder. Our data indicate that Ji is slightly larger than J' (J' /Ji'0.9) with J'52139 meV ~21670 K! and Ji52156 meV ~21870 K!. Recent experimental data indicate a more strongly anisotropic ratio, J' /Ji'0.5. The origin of the difference is unclear, as our ab initio estimates of J' and Ji seem to be converged with respect to the size of the basis set, the level o...
This thesis describes the neutron scattering measurements of magnetic excitations in spin-chains and...
The magnetism of lamellar copper oxides, which are the parent materials of high temperature supercon...
State-of-the-art molecular quantum chemical techniques have been applied to the solid-state compound...
A wide range of experimental, semiempirical, and theoretical values have been reported in the litera...
Quantum chemical calculations on embedded cluster models have been performed to extract accurate est...
The results are presented of a combined periodic and cluster model approach to the electronic struct...
The four-spin cyclic exchange term Jring of three spin-ladder cuprates (SrCu2O3, Sr2Cu3O5, and CaCu2...
International audienceIn this work we present a theoretical study of the magnetic properties of the ...
The spin-ladders compounds with formula Sr14Cu24O41 or related exhibit a rather complex crystallogra...
A long-range magnetic order was discovered in the quasi-one-dimensional spin-ladder compound SrCa13C...
The ladder compound Sr14Cu24O41 is of interest both as a quasi-one-dimensional analog of the superco...
The incommensurate composite systems M14Cu24O41 (M = Ca, Sr, La) are based on two fundamental struct...
We study the electronic and magnetic structure of the undoped ideal two and three-leg ladder cuprate...
We present a microscopic study of the electronic and magnetic properties of the spin ladder systems ...
Sr2Cu3O4Cl2 is a variant of the lamellar copper oxides, containing an extra Cu2+ ion in the center o...
This thesis describes the neutron scattering measurements of magnetic excitations in spin-chains and...
The magnetism of lamellar copper oxides, which are the parent materials of high temperature supercon...
State-of-the-art molecular quantum chemical techniques have been applied to the solid-state compound...
A wide range of experimental, semiempirical, and theoretical values have been reported in the litera...
Quantum chemical calculations on embedded cluster models have been performed to extract accurate est...
The results are presented of a combined periodic and cluster model approach to the electronic struct...
The four-spin cyclic exchange term Jring of three spin-ladder cuprates (SrCu2O3, Sr2Cu3O5, and CaCu2...
International audienceIn this work we present a theoretical study of the magnetic properties of the ...
The spin-ladders compounds with formula Sr14Cu24O41 or related exhibit a rather complex crystallogra...
A long-range magnetic order was discovered in the quasi-one-dimensional spin-ladder compound SrCa13C...
The ladder compound Sr14Cu24O41 is of interest both as a quasi-one-dimensional analog of the superco...
The incommensurate composite systems M14Cu24O41 (M = Ca, Sr, La) are based on two fundamental struct...
We study the electronic and magnetic structure of the undoped ideal two and three-leg ladder cuprate...
We present a microscopic study of the electronic and magnetic properties of the spin ladder systems ...
Sr2Cu3O4Cl2 is a variant of the lamellar copper oxides, containing an extra Cu2+ ion in the center o...
This thesis describes the neutron scattering measurements of magnetic excitations in spin-chains and...
The magnetism of lamellar copper oxides, which are the parent materials of high temperature supercon...
State-of-the-art molecular quantum chemical techniques have been applied to the solid-state compound...