Author: Hiroaki Kadowaki
Publisher:
ISBN:
Category :
Languages : en
Pages : 19
Book Description
Neutron Scattering Study of Magnetic Excitations in a One-dimensional Heisenberg Antiferromagnet CsVCl3
Neutron Scattering Study of Magnetic Excitations in a One-dimensional Heisenberg Antiferromanget CsVCl3
Magnetic and Neutron Scattering Study of One-dimensional Heisenberg Antiferromagnet CsVCl3
Neutron Scattering Study of Magnetic Excitation in Quasi-one-dimensional Triangular Lattice Antiferromagnet CsVCl3
Journal of the Physical Society of Japan
Neutron Scattering Study of Magnetic Excitations in Pseudo-one-dimensional Singlet Ground State Ferromagnets CsFeCl3 and RbFeCl3
Technical Report of ISSP.
Neutron Scattering Study of Magnetic Excitations in Pseudo-one-dimensional Singlet Ground State Ferromagnets CsFeC13 and RbFeC13
Physics Briefs
Neutron Scattering Investigations of Zero- and One-dimensional Quantum Magnets
Author: Oliver Pieper
Publisher:
ISBN: 9783832527303
Category :
Languages : en
Pages : 270
Book Description
This thesis deals with the investigation of two different types of low-dimensional quantum magnets using the technique of neutron scattering.In the first part, the magnetic properties of three Mn_6-based single molecule magnets are explored by means of inelastic neutron scattering. The experimental data reveal that small structural distortions of the molecular geometry produce a significant effect on the energy level diagram and therefore on the magnetic properties of the molecules. It will be shown that the giant spin model completely fails to describe the spin level structure of the ground spin multiplets and that the excited S-multiplets play a key role in determining the effective energy barrier for the magnetization reversal.The second part of this thesis presents an in-depth study of the nuclear and magnetic properties of the quasi-one-dimensional Heisenberg antiferromagnet CaV_2O_4. The magnetism in this system arises from the partially filled t_{2g-levels of the V^{3+-ions, which in addition give an orbital degree of freedom to the system.Single crystal and powder neutron diffraction as well as neutron spectroscopy are used to determine the nuclear and magnetic structure as well as the complex excitation spectrum of CaV_2O_4. The results are analysed theoretically and from this the leading exchange paths are deduced and discussed in terms of orbital ordering.
Publisher:
ISBN: 9783832527303
Category :
Languages : en
Pages : 270
Book Description
This thesis deals with the investigation of two different types of low-dimensional quantum magnets using the technique of neutron scattering.In the first part, the magnetic properties of three Mn_6-based single molecule magnets are explored by means of inelastic neutron scattering. The experimental data reveal that small structural distortions of the molecular geometry produce a significant effect on the energy level diagram and therefore on the magnetic properties of the molecules. It will be shown that the giant spin model completely fails to describe the spin level structure of the ground spin multiplets and that the excited S-multiplets play a key role in determining the effective energy barrier for the magnetization reversal.The second part of this thesis presents an in-depth study of the nuclear and magnetic properties of the quasi-one-dimensional Heisenberg antiferromagnet CaV_2O_4. The magnetism in this system arises from the partially filled t_{2g-levels of the V^{3+-ions, which in addition give an orbital degree of freedom to the system.Single crystal and powder neutron diffraction as well as neutron spectroscopy are used to determine the nuclear and magnetic structure as well as the complex excitation spectrum of CaV_2O_4. The results are analysed theoretically and from this the leading exchange paths are deduced and discussed in terms of orbital ordering.