by Bonfim, M, Ghiringhelli, G, Montaigne, F, Pizzini, S and Brookes, NB, Petroff, F, Vogel, J, Camarero, J and Fontaine, A
Abstract:
We have developed a new original technique to study the magnetization reversal dynamics of thin films with element selectivity in the nanosecond time scale. X-ray magnetic circular dichroism measurements in pump-probe mode are carried out taking advantage of the time structure of synchrotron radiation. The dynamics of the magnetization reversal of each of the layers of complex heterostructures (like spin valves or tunnel junctions) can be probed independently. The interlayer coupling in the studied systems has been shown to play a key role in the determination of the magnetization reversal of each individual layer.
Reference:
Element-selective nanosecond magnetization dynamics in magnetic heterostructures (Bonfim, M, Ghiringhelli, G, Montaigne, F, Pizzini, S and Brookes, NB, Petroff, F, Vogel, J, Camarero, J and Fontaine, A), In PHYSICAL REVIEW LETTERS, AMER PHYSICAL SOC, volume 86, 2001.
Bibtex Entry:
@article{ ISI:000168109800047,
Author = {Bonfim, M and Ghiringhelli, G and Montaigne, F and Pizzini, S and
Brookes, NB and Petroff, F and Vogel, J and Camarero, J and Fontaine, A},
Title = {{Element-selective nanosecond magnetization dynamics in magnetic
heterostructures}},
Journal = {{PHYSICAL REVIEW LETTERS}},
Year = {{2001}},
Volume = {{86}},
Number = {{16}},
Pages = {{3646-3649}},
Month = {{APR 16}},
Abstract = {{We have developed a new original technique to study the magnetization
reversal dynamics of thin films with element selectivity in the
nanosecond time scale. X-ray magnetic circular dichroism measurements in
pump-probe mode are carried out taking advantage of the time structure
of synchrotron radiation. The dynamics of the magnetization reversal of
each of the layers of complex heterostructures (like spin valves or
tunnel junctions) can be probed independently. The interlayer coupling
in the studied systems has been shown to play a key role in the
determination of the magnetization reversal of each individual layer.}},
Publisher = {{AMER PHYSICAL SOC}},
Address = {{ONE PHYSICS ELLIPSE, COLLEGE PK, MD 20740-3844 USA}},
Type = {{Article}},
Language = {{English}},
Affiliation = {{Pizzini, S (Corresponding Author), CNRS, Lab Louis Neel, 25 Ave Martyrs,BP 166, F-38042 Grenoble 9, France.
CNRS, Lab Louis Neel, F-38042 Grenoble 9, France.
European Synchrotron Radiat Facil, F-38043 Grenoble, France.
Thomson CSF, UMR CNRS, F-91401 Orsay, France.}},
DOI = {{10.1103/PhysRevLett.86.3646}},
ISSN = {{0031-9007}},
EISSN = {{1079-7114}},
Keywords-Plus = {{GIANT MAGNETORESISTANCE; CIRCULAR-DICHROISM; ROTATIONAL MODEL; REVERSAL;
TIME; RELAXATION; XMCD}},
Research-Areas = {{Physics}},
Web-of-Science-Categories = {{Physics, Multidisciplinary}},
ResearcherID-Numbers = {{Camarero, Julio/C-4375-2014
Brookes, Nicholas B/C-6718-2019
Ghiringhelli, Giacomo/D-1159-2014
Montaigne, Francois/P-2353-2019
Montaigne, Francois/A-1037-2010
Petroff, Frederic/T-6763-2019
Petroff, Frederic/I-7206-2012
}},
ORCID-Numbers = {{Brookes, Nicholas B/0000-0002-1342-9530
Ghiringhelli, Giacomo/0000-0003-0867-7748
Montaigne, Francois/0000-0003-4010-9935
Petroff, Frederic/0000-0002-0768-8616
Camarero De Diego, Julio/0000-0003-0078-7280
Vogel, Jan/0000-0001-8008-6980
Pizzini, Stefania/0000-0002-7016-1083}},
Number-of-Cited-References = {{21}},
Times-Cited = {{70}},
Usage-Count-Last-180-days = {{0}},
Usage-Count-Since-2013 = {{9}},
Journal-ISO = {{Phys. Rev. Lett.}},
Doc-Delivery-Number = {{422GH}},
Unique-ID = {{ISI:000168109800047}},
DA = {{2020-12-22}},
}
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