Tunable High-Field/ High-Frequency ESR and High-Field Magnetization on Single-Molecule Clusters / Abstimmbare Hochfeld/ Hochfrequenz ESR und Hochfeldmagnetisierung von Einzelmolekül-Clustern

Golze, Christian

07 January 2008

In this work, low dimensional iron group clusters have been studied by application of high magnetic fields. The magnetization has been probed with an MPMS as function of temperature and field. The combination with pulse field measurements up to 52\,T allowed determination of the magnetic exchange coupling parameters, and to probing the effective spin of the ground state. The main focus was on tunable high-field/high-frequency (tHF) ESR in static fields < 17 T and pulse field ESR up to 36 T. This magnetic resonance method has been used for the characterization of the local magnetic properties: The detailed analysis of the field dependence of dedicated spin states allowed to determine the magnetic anisotropy and g-factors. The results were analyzed in the framework of the appropriate effective spin Hamiltonians in terms of magnetization fits and ESR spectrum simulations.

molecular magnetism

single molecule magnets

SMM

magnetic anisotropy

magnetic clusters

nanomagnets

HF ESR

ESR

magnetic field

pulse field

pulsed field

magnetic resonance

electron paramagnetic resonance

g-factor

exchange coupled systems

molekulare magneten

einzelmolekülmagnet

SMM

magnetische anisotropie

magnetische cluster

nanomagnete

HF ESR

Hochfeld ESR

Elektronenspinresonanz

magnetische Resonanz

Pulsfeld

gepulste Felder

magnetischer Austausch

austauschgekoppelte Systeme

ddc:530

rvk:UP 6900

Tunable High-Field/ High-Frequency ESR and High-Field Magnetization on Single-Molecule Clusters

Golze, Christian

06 December 2007

In this work, low dimensional iron group clusters have been studied by application of high magnetic fields. The magnetization has been probed with an MPMS as function of temperature and field. The combination with pulse field measurements up to 52\,T allowed determination of the magnetic exchange coupling parameters, and to probing the effective spin of the ground state. The main focus was on tunable high-field/high-frequency (tHF) ESR in static fields < 17 T and pulse field ESR up to 36 T. This magnetic resonance method has been used for the characterization of the local magnetic properties: The detailed analysis of the field dependence of dedicated spin states allowed to determine the magnetic anisotropy and g-factors. The results were analyzed in the framework of the appropriate effective spin Hamiltonians in terms of magnetization fits and ESR spectrum simulations.

info:eu-repo/classification/ddc/530

ddc:530