Nonlocal ultrafast magnetization dynamics in the high fluence limit

K.C. Kuiper; G. Malinowski; F. Dalla Longa; B. Koopmans

doi:10.1063/1.3540681

Nonlocal ultrafast magnetization dynamics in the high fluence limit

K.C. Kuiper
, G. Malinowski
, F. Dalla Longa
, B. Koopmans

Physics of Nanostructures

Onderzoeksoutput: Bijdrage aan tijdschrift › Tijdschriftartikel › Academic › peer review

14 Citaten (Scopus)

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In order to explain a number of recent experimental observations of laser-induced femtosecond demagnetization in the large fluence limit, we discuss the consequences of a recently proposed nonlocal approach. A microscopic description of spin flip scattering is implemented in an effective three temperature model, including electronic heat diffusion. Effects of finite film thickness on the demagnetization transients are discussed. Our results show a clear saturation of the ultrafast demagnetization, in excellent agreement with experimental observations.

Originele taal-2	Engels
Artikelnummer	07D316
Pagina's (van-tot)	07D316-1/3
Aantal pagina's	3
Tijdschrift	Journal of Applied Physics
Volume	109
Nummer van het tijdschrift	7
DOI's	https://doi.org/10.1063/1.3540681
Status	Gepubliceerd - 2011

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10.1063/1.3540681

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title = "Nonlocal ultrafast magnetization dynamics in the high fluence limit",

abstract = "In order to explain a number of recent experimental observations of laser-induced femtosecond demagnetization in the large fluence limit, we discuss the consequences of a recently proposed nonlocal approach. A microscopic description of spin flip scattering is implemented in an effective three temperature model, including electronic heat diffusion. Effects of finite film thickness on the demagnetization transients are discussed. Our results show a clear saturation of the ultrafast demagnetization, in excellent agreement with experimental observations.",

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AB - In order to explain a number of recent experimental observations of laser-induced femtosecond demagnetization in the large fluence limit, we discuss the consequences of a recently proposed nonlocal approach. A microscopic description of spin flip scattering is implemented in an effective three temperature model, including electronic heat diffusion. Effects of finite film thickness on the demagnetization transients are discussed. Our results show a clear saturation of the ultrafast demagnetization, in excellent agreement with experimental observations.

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Nonlocal ultrafast magnetization dynamics in the high fluence limit

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