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Role of the static correlations on the ultrafast spin dynamics of 3d molecular nano-magnets

We investigate the static and dynamic correlations on the synthesized heterotetranuclear magnetic cluster [Co3Ni(EtOH)]+, which, as already shown before, has a great potential to act as a magnetic nanologic element. Here we study the system with the state-of-the-art equation-of-motion coupled-cluste...

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Published in:	Physica scripta 2020-06, Vol.95 (6)
Main Authors:	Dutta, D, Lefkidis, G, Hübner, W
Format:	Article
Language:	English
Subjects:	correlations laser-induced spin dynamics magnetism quantum chemistry
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creator	Dutta, D Lefkidis, G Hübner, W
description	We investigate the static and dynamic correlations on the synthesized heterotetranuclear magnetic cluster [Co3Ni(EtOH)]+, which, as already shown before, has a great potential to act as a magnetic nanologic element. Here we study the system with the state-of-the-art equation-of-motion coupled-cluster (EOM-CCSD) method, for which we find that although designed for dynamic correlations, it also incorporates a large part of the static correlations, and is thus an ideal method for studying optics on strongly correlated magnetic systems. We find that a major factor in the description of the static correlations is a strong d character of the molecular orbitals participating in the virtual excitations of the many-body states and propose a quantitative measure for static correlations in terms of the d → d virtual transitions. We find an inherent dependence of the static correlations on the magnetic field, the temperature, and the spin-orbit-coupling strength. Using two distinct correlation measures we study the evolution of the static and the dynamic correlations, as well as the entropy, during laser-induced ultrafast spin dynamics. Our results indicate that generally Λ processes greatly profit from strongly statically correlated intermediate states, and thus give us an insight on how to ameliorate the elementary processes when designing magnetic nanospintronics elements.
doi_str_mv	10.1088/1402-4896/ab833a
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Here we study the system with the state-of-the-art equation-of-motion coupled-cluster (EOM-CCSD) method, for which we find that although designed for dynamic correlations, it also incorporates a large part of the static correlations, and is thus an ideal method for studying optics on strongly correlated magnetic systems. We find that a major factor in the description of the static correlations is a strong d character of the molecular orbitals participating in the virtual excitations of the many-body states and propose a quantitative measure for static correlations in terms of the d → d virtual transitions. We find an inherent dependence of the static correlations on the magnetic field, the temperature, and the spin-orbit-coupling strength. Using two distinct correlation measures we study the evolution of the static and the dynamic correlations, as well as the entropy, during laser-induced ultrafast spin dynamics. 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We find that a major factor in the description of the static correlations is a strong d character of the molecular orbitals participating in the virtual excitations of the many-body states and propose a quantitative measure for static correlations in terms of the d → d virtual transitions. We find an inherent dependence of the static correlations on the magnetic field, the temperature, and the spin-orbit-coupling strength. Using two distinct correlation measures we study the evolution of the static and the dynamic correlations, as well as the entropy, during laser-induced ultrafast spin dynamics. Our results indicate that generally Λ processes greatly profit from strongly statically correlated intermediate states, and thus give us an insight on how to ameliorate the elementary processes when designing magnetic nanospintronics elements.</abstract><pub>IOP Publishing</pub><doi>10.1088/1402-4896/ab833a</doi><tpages>14</tpages></addata></record>
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subjects	correlations laser-induced spin dynamics magnetism quantum chemistry
title	Role of the static correlations on the ultrafast spin dynamics of 3d molecular nano-magnets
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