Coherent spin relaxation in molecular magnets

A. Abraham; A. E. Siegman; A. V. Andreev; C. Paulsen; L. Mandel; N. A. Bazhanov; N. A. Bazhanov; N. P. Fokina; N. P. Fokina; O. Kahn; O. V. Nazarova; P. V. Kharebov; T. M. Shavishvili; T. S. Belozerova; V. I. Yukalov; V. I. Yukalov; V. I. Yukalov; V. I. Yukalov; V. I. Yukalov; V. I. Yukalov; V. I. Yukalov; V. K. Henner; V. M. Fain; W. Wersndorfer; Y. F. Kiselev

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Coherent spin relaxation in molecular magnets

Authors: A. Abraham
A. E. Siegman
A. V. Andreev
C. Paulsen
L. Mandel
N. A. Bazhanov
N. A. Bazhanov
N. P. Fokina
N. P. Fokina
O. Kahn
O. V. Nazarova
P. V. Kharebov
T. M. Shavishvili
T. S. Belozerova
V. I. Yukalov
V. I. Yukalov
V. I. Yukalov
V. I. Yukalov
V. I. Yukalov
V. I. Yukalov
V. I. Yukalov
V. K. Henner
V. M. Fain
W. Wersndorfer
Y. F. Kiselev
Publication date: 28 April 2008
Publisher: 'American Physical Society (APS)'
Doi

Abstract

Numerical modelling of coherent spin relaxation in nanomagnets, formed by magnetic molecules of high spins, is accomplished. Such a coherent spin dynamics can be realized in the presence of a resonant electric circuit coupled to the magnet. Computer simulations for a system of a large number of interacting spins is an efficient tool for studying the microscopic properties of such systems. Coherent spin relaxation is an ultrafast process, with the relaxation time that can be an order shorter than the transverse spin dephasing time. The influence of different system parameters on the relaxation process is analysed. The role of the sample geometry on the spin relaxation is investigated.Comment: Latex file, 22 pages, 7 figure

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