2008
DOI: 10.1103/physrevb.77.224401
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Ab initiostudy on a chain model of theCr8molecular magnet

Abstract: We present a density-functional theory investigation of the electronic and magnetic properties of a linear chain model of the antiferromagnetic Cr 8 molecular ring. The chain model system is characterized by a smaller size of the simulation cell needed to perform the calculations, with respect to the one necessary for Cr 8 . By the thorough comparison between the model complex and the Cr 8 ring, we prove that the chain model is reliable and mimics with good approximation the electronic and magnetic properties … Show more

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Cited by 27 publications
(48 citation statements)
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“…2.36 eV 2.15 eV with that found in literature (J = 3.2 meV), using the Gaussian basis functions and the same B3LYP functional implemented in the NWChem package [9]. Even better estimates of J parameter [4,13] were obtained with GGA+U or LDA+U methods. However, these results depend on U parameter which can be tuned to t the experimental value.…”
Section: Tablesupporting
confidence: 52%
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“…2.36 eV 2.15 eV with that found in literature (J = 3.2 meV), using the Gaussian basis functions and the same B3LYP functional implemented in the NWChem package [9]. Even better estimates of J parameter [4,13] were obtained with GGA+U or LDA+U methods. However, these results depend on U parameter which can be tuned to t the experimental value.…”
Section: Tablesupporting
confidence: 52%
“…In our calculations we do not include spin-orbit coupling, as it was already shown that the dierences in the results are negligible [4,13] and the single-ion anisotropy for the Cr ions is known to be very small [2,26,27]. …”
Section: Dft Approachmentioning
confidence: 99%
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“…Previously we checked that [19] the approach is reliable despite it is computationally less demanding than the codes with the full potential implemented. Instead of using various linear or zig-zag models [41,42], we have accounted for a real geometrical structure of the molecule (like that used in [43]) and have evaluated the total energies for all the non-equivalent congurations with spin up and down.…”
Section: Dft Results For Crmentioning
confidence: 99%