Nonequilibrium Magnetization Dynamics of Nickel

A. Vaterlaus; A. Vaterlaus; A. Vaterlaus; D. R. Penn; E. Beaurepaire; E. Matthias; J. Callaway; J. E. Sipe; J. Hohlfeld; K. Böhmer; K. H. Bennemann; M. B. Agranat; P. Weiss; R. Knorren; R. P. Pan; U. Pustogowa; W. Hübner; W. S. Fann

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Nonequilibrium Magnetization Dynamics of Nickel

Authors: A. Vaterlaus
A. Vaterlaus
A. Vaterlaus
D. R. Penn
E. Beaurepaire
E. Matthias
J. Callaway
J. E. Sipe
J. Hohlfeld
K. Böhmer
K. H. Bennemann
M. B. Agranat
P. Weiss
R. Knorren
R. P. Pan
U. Pustogowa
W. Hübner
W. S. Fann
Publication date: 8 July 1997
Publisher: 'American Physical Society (APS)'
Doi

Abstract

Ultrafast magnetization dynamics of nickel has been studied for different degrees of electronic excitation, using pump-probe second-harmonic generation with 150 fs/800 nm laser pulses of various fluences. Information about the electronic and magnetic response to laser irradiation is obtained from sums and differences of the SHG intensity for opposite magnetization directions. The classical M(T)-curve can be reproduced for delay times larger than the electron thermalization time of about 280 fs, even when electrons and lattice have not reached thermal equilibrium. Further we show that the transient magnetization reaches its minimum approx. 50 fs before electron thermalization is completed.Comment: 8 pages, 5 figures, revte

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