Dipolar ordering in Fe8?

A Aharony; Barra A.-L.; Bowden G. J.; Chudnovsky E. M.; Cuccoli A.; Czech R.; del Barco E.; Dobrovitsky V. V.; E. M Chudnovsky; Ewald P. P.; Hamman J.; Kent A. D.; Miyashita S.; Paulsen C.; Villain J.; Vincent E.; Wernsdorfer W.; X Martínez-Hidalgo

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Dipolar ordering in Fe8?

Authors: A Aharony
Barra A.-L.
Bowden G. J.
Chudnovsky E. M.
Cuccoli A.
Czech R.
del Barco E.
Dobrovitsky V. V.
E. M Chudnovsky
Ewald P. P.
Hamman J.
Kent A. D.
Miyashita S.
Paulsen C.
Villain J.
Vincent E.
Wernsdorfer W.
X Martínez-Hidalgo
Publication date: 1 January 2001
Publisher: 'IOP Publishing'
Doi

Abstract

We show that the low-temperature physics of molecular nanomagnets, contrary to the prevailing one-molecule picture, must be determined by the long-range magnetic ordering due to many-body dipolar interactions. The calculations here performed, using Ewald's summation, suggest a ferromagnetic ground state with a Curie temperature of about 130 mK. The energy of this state is quite close to those of an antiferromagnetic state and to a glass of frozen spin chains. The latter may be realized at finite temperature due to its high entropy.Comment: 7 pages, no figures, submitted to EP

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