Indirect excitation of ultrafast demagnetization

Boris Vodungbo; Bahrati Tudu; Jonathan Perron; Renaud Delaunay; Leonard Müller; Magnus H. Berntsen; Gerhard Grübel; Grégory Malinowski; Christian Weier; Julien Gautier; Guillaume Lambert; Philippe Zeitoun; Christian Gutt; Emmanuelle Jal; Alexander H. Reid; Patrick W. Granitzka; Nicolas Jaouen; Georgi L. Dakovski; Stefan Moeller; Michael P. Minitti; Ankush Mitra; Sebastian Carron; Bastian Pfau; Clemens Von Korff Schmising; Michael Schneider; Stefan Eisebitt; Jan Lüning

doi:10.1038/srep18970

Indirect excitation of ultrafast demagnetization

Boris Vodungbo
, Bahrati Tudu
, Jonathan Perron
, Renaud Delaunay
, Leonard Müller
, Magnus H. Berntsen
, Gerhard Grübel
, Grégory Malinowski
, Christian Weier
, Julien Gautier
, Guillaume Lambert
, Philippe Zeitoun
, Christian Gutt
, Emmanuelle Jal
, Alexander H. Reid
, Patrick W. Granitzka
, Nicolas Jaouen
, Georgi L. Dakovski
, Stefan Moeller
, Michael P. Minitti

Ankush Mitra, Sebastian Carron, Bastian Pfau, Clemens Von Korff Schmising, Michael Schneider, Stefan Eisebitt, Jan Lüning

Sorbonne Université
Universie Pierre et Marie Curie - CNRS UMR 7614
c/o DESY
Universität Hamburg
Nancy Université
Research Centre Julich
Université Paris-Saclay
Universität Siegen
Stanford Linear Accelerator Center
Van der Waals-Zeeman Institute
Synchrotron SOLEIL
Lund University
TU Berlin

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

Does the excitation of ultrafast magnetization require direct interaction between the photons of the optical pump pulse and the magnetic layer? Here, we demonstrate unambiguously that this is not the case. For this we have studied the magnetization dynamics of a ferromagnetic cobalt/palladium multilayer capped by an IR-opaque aluminum layer. Upon excitation with an intense femtosecond-short IR laser pulse, the film exhibits the classical ultrafast demagnetization phenomenon although only a negligible number of IR photons penetrate the aluminum layer. In comparison with an uncapped cobalt/palladium reference film, the initial demagnetization of the capped film occurs with a delayed onset and at a slower rate. Both observations are qualitatively in line with energy transport from the aluminum layer into the underlying magnetic film by the excited, hot electrons of the aluminum film. Our data thus confirm recent theoretical predictions.

langue originale	Anglais
Numéro d'article	18970
journal	Scientific Reports
Volume	6
Les DOIs	https://doi.org/10.1038/srep18970
état	Publié - 6 janv. 2016
Modification externe	Oui

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10.1038/srep18970

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Vodungbo, B., Tudu, B., Perron, J., Delaunay, R., Müller, L., Berntsen, M. H., Grübel, G., Malinowski, G., Weier, C., Gautier, J., Lambert, G., Zeitoun, P., Gutt, C., Jal, E., Reid, A. H., Granitzka, P. W., Jaouen, N., Dakovski, G. L., Moeller, S., ... Lüning, J. (2016). Indirect excitation of ultrafast demagnetization. Scientific Reports, 6, Article 18970. https://doi.org/10.1038/srep18970

@article{90e1742a849d491db093f6993066c126,

title = "Indirect excitation of ultrafast demagnetization",

abstract = "Does the excitation of ultrafast magnetization require direct interaction between the photons of the optical pump pulse and the magnetic layer? Here, we demonstrate unambiguously that this is not the case. For this we have studied the magnetization dynamics of a ferromagnetic cobalt/palladium multilayer capped by an IR-opaque aluminum layer. Upon excitation with an intense femtosecond-short IR laser pulse, the film exhibits the classical ultrafast demagnetization phenomenon although only a negligible number of IR photons penetrate the aluminum layer. In comparison with an uncapped cobalt/palladium reference film, the initial demagnetization of the capped film occurs with a delayed onset and at a slower rate. Both observations are qualitatively in line with energy transport from the aluminum layer into the underlying magnetic film by the excited, hot electrons of the aluminum film. Our data thus confirm recent theoretical predictions.",

author = "Boris Vodungbo and Bahrati Tudu and Jonathan Perron and Renaud Delaunay and Leonard M{\"u}ller and Berntsen, \{Magnus H.\} and Gerhard Gr{\"u}bel and Gr{\'e}gory Malinowski and Christian Weier and Julien Gautier and Guillaume Lambert and Philippe Zeitoun and Christian Gutt and Emmanuelle Jal and Reid, \{Alexander H.\} and Granitzka, \{Patrick W.\} and Nicolas Jaouen and Dakovski, \{Georgi L.\} and Stefan Moeller and Minitti, \{Michael P.\} and Ankush Mitra and Sebastian Carron and Bastian Pfau and \{Von Korff Schmising\}, Clemens and Michael Schneider and Stefan Eisebitt and Jan L{\"u}ning",

year = "2016",

month = jan,

day = "6",

doi = "10.1038/srep18970",

language = "English",

volume = "6",

journal = "Scientific Reports",

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}

Vodungbo, B, Tudu, B, Perron, J, Delaunay, R, Müller, L, Berntsen, MH, Grübel, G, Malinowski, G, Weier, C, Gautier, J , Lambert, G , Zeitoun, P, Gutt, C, Jal, E, Reid, AH, Granitzka, PW, Jaouen, N, Dakovski, GL, Moeller, S, Minitti, MP, Mitra, A, Carron, S, Pfau, B, Von Korff Schmising, C, Schneider, M, Eisebitt, S & Lüning, J 2016, 'Indirect excitation of ultrafast demagnetization', Scientific Reports, VOL. 6, 18970. https://doi.org/10.1038/srep18970

TY - JOUR

T1 - Indirect excitation of ultrafast demagnetization

AU - Vodungbo, Boris

AU - Tudu, Bahrati

AU - Perron, Jonathan

AU - Delaunay, Renaud

AU - Müller, Leonard

AU - Berntsen, Magnus H.

AU - Grübel, Gerhard

AU - Malinowski, Grégory

AU - Weier, Christian

AU - Gautier, Julien

AU - Lambert, Guillaume

AU - Zeitoun, Philippe

AU - Gutt, Christian

AU - Jal, Emmanuelle

AU - Reid, Alexander H.

AU - Granitzka, Patrick W.

AU - Jaouen, Nicolas

AU - Dakovski, Georgi L.

AU - Moeller, Stefan

AU - Minitti, Michael P.

AU - Mitra, Ankush

AU - Carron, Sebastian

AU - Pfau, Bastian

AU - Von Korff Schmising, Clemens

AU - Schneider, Michael

AU - Eisebitt, Stefan

AU - Lüning, Jan

PY - 2016/1/6

Y1 - 2016/1/6

N2 - Does the excitation of ultrafast magnetization require direct interaction between the photons of the optical pump pulse and the magnetic layer? Here, we demonstrate unambiguously that this is not the case. For this we have studied the magnetization dynamics of a ferromagnetic cobalt/palladium multilayer capped by an IR-opaque aluminum layer. Upon excitation with an intense femtosecond-short IR laser pulse, the film exhibits the classical ultrafast demagnetization phenomenon although only a negligible number of IR photons penetrate the aluminum layer. In comparison with an uncapped cobalt/palladium reference film, the initial demagnetization of the capped film occurs with a delayed onset and at a slower rate. Both observations are qualitatively in line with energy transport from the aluminum layer into the underlying magnetic film by the excited, hot electrons of the aluminum film. Our data thus confirm recent theoretical predictions.

AB - Does the excitation of ultrafast magnetization require direct interaction between the photons of the optical pump pulse and the magnetic layer? Here, we demonstrate unambiguously that this is not the case. For this we have studied the magnetization dynamics of a ferromagnetic cobalt/palladium multilayer capped by an IR-opaque aluminum layer. Upon excitation with an intense femtosecond-short IR laser pulse, the film exhibits the classical ultrafast demagnetization phenomenon although only a negligible number of IR photons penetrate the aluminum layer. In comparison with an uncapped cobalt/palladium reference film, the initial demagnetization of the capped film occurs with a delayed onset and at a slower rate. Both observations are qualitatively in line with energy transport from the aluminum layer into the underlying magnetic film by the excited, hot electrons of the aluminum film. Our data thus confirm recent theoretical predictions.

UR - https://www.scopus.com/pages/publications/84954525302

U2 - 10.1038/srep18970

DO - 10.1038/srep18970

M3 - Article

AN - SCOPUS:84954525302

SN - 2045-2322

VL - 6

JO - Scientific Reports

JF - Scientific Reports

M1 - 18970

ER -

Indirect excitation of ultrafast demagnetization

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