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Literature DB >> 11019113

Butterfly hysteresis loop and dissipative spin reversal in the S = 1/2, V15 molecular complex

Abstract

Time resolved magnetization measurements have been performed on a spin 1/2 molecular complex, so-called V15. Despite the absence of a barrier, magnetic hysteresis is observed over a time scale of several seconds. A detailed analysis in terms of a dissipative two-level model is given, in which fluctuations and splittings are of the same energy. Spin-phonon coupling leads to long relaxation times and to a particular "butterfly" hysteresis loop.

Entities: Gene

Year: 2000 PMID： 11019113 DOI： 10.1103/PhysRevLett.84.3454

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

4 in total

1. Magnetization relaxation in the single-ion magnet DySc₂N@C₈₀: quantum tunneling, magnetic dilution, and unconventional temperature dependence.

Authors: D S Krylov; F Liu; A Brandenburg; L Spree; V Bon; S Kaskel; A U B Wolter; B Büchner; S M Avdoshenko; A A Popov
Journal: Phys Chem Chem Phys Date: 2018-04-19 Impact factor: 3.676

Butterfly hysteresis loop and dissipative spin reversal in the S = 1/2, V15 molecular complex

1. Magnetization relaxation in the single-ion magnet DySc₂N@C₈₀: quantum tunneling, magnetic dilution, and unconventional temperature dependence.

2. Slow magnetic relaxation in octahedral low-spin Ni(iii) complexes.

3. A Low Spin Manganese(IV) Nitride Single Molecule Magnet.

4. Spin-orbit coupled molecular quantum magnetism realized in inorganic solid.

Butterfly hysteresis loop and dissipative spin reversal in the S = 1/2, V15 molecular complex

1. Magnetization relaxation in the single-ion magnet DySc2N@C80: quantum tunneling, magnetic dilution, and unconventional temperature dependence.

2. Slow magnetic relaxation in octahedral low-spin Ni(iii) complexes.

3. A Low Spin Manganese(IV) Nitride Single Molecule Magnet.

4. Spin-orbit coupled molecular quantum magnetism realized in inorganic solid.

1. Magnetization relaxation in the single-ion magnet DySc₂N@C₈₀: quantum tunneling, magnetic dilution, and unconventional temperature dependence.