Spin polarization in half-metals probed by femtosecond spin excitation

Mueller, Georg M.; Walowski, Jakob; Djordjevic, Marija; Miao, Gou-Xing; Gupta, Arunava; Ramos, Ana V.; Gehrke, Kai; Moshnyaga, Vasily T.; Samwer, Konrad H.; Schmalhorst, Jan; Thomas, Andy; Huetten, Andreas; Reiss, Guenter; Moodera, Jagadeesh S.; Muenzenberg, Markus G.

doi:10.1038/NMAT2341

Spin polarization in half-metals probed by femtosecond spin excitation

ISSN

1476-4660

1476-1122

Date Issued

2009

Author(s)

Mueller, Georg M.

Walowski, Jakob

Djordjevic, Marija

Miao, Gou-Xing

Gupta, Arunava

Ramos, Ana V.

Gehrke, Kai

Moshnyaga, Vasily T.

Samwer, Konrad H.

Schmalhorst, Jan

Thomas, Andy

Huetten, Andreas

Reiss, Guenter

Moodera, Jagadeesh S.

Muenzenberg, Markus G.

DOI

10.1038/NMAT2341

Abstract

Knowledge of the spin polarization is of fundamental importance for the use of a material in spintronics applications. Here, we used femtosecond optical excitation of half-metals to distinguish between half-metallic and metallic properties. Because the direct energy transfer by Elliot-Yafet scattering is blocked in a half-metal, the demagnetization time is a measure for the degree of half-metallicity. We propose that this characteristic enables us vice versa to establish a novel and fast characterization tool for this highly important material class used in spin-electronic devices. The technique has been applied to a variety of materials where the spin polarization at the Fermi level ranges from 45 to 98%: Ni, Co2MnSi, Fe3O4, La0.66Sr0.33MnO3 and CrO2.

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Spin polarization in half-metals probed by femtosecond spin excitation