Accessing the fundamentals of magnetotransport in metals with terahertz probes
Jin Z, Tkach A, Casper F, Spetter V, Grimm H, Thomas A, Kampfrath T, Bonn M, Klaeui M, Turchinovich D (2015)
Nature Physics 11(9): 761-766.
Zeitschriftenaufsatz
| Veröffentlicht | Englisch
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Autor*in
Jin, Zuanming;
Tkach, Alexander;
Casper, Frederick;
Spetter, Victor;
Grimm, Hubert;
Thomas, AndyUniBi ;
Kampfrath, Tobias;
Bonn, Mischa;
Klaeui, Mathias;
Turchinovich, DmitryUniBi
Einrichtung
Abstract / Bemerkung
Spin-dependent conduction in metals underlies all modern magnetic memory technologies, such as giant magnetoresistance (GMR). The charge current in ferromagnetic transition metals is carried by two non-mixing populations of sp-band Fermi-level electrons: one of majority-spin and one of minority-spin. These electrons experience spin-dependent momentum scattering with localized electrons, which originate from the spin-split d-band. The direct observation of magnetotransport under such fundamental conditions, however, requires magnetotransport measurements on the same timescale as the electron momentum scattering, which takes place in the sub-100 fs regime. Using terahertz electromagnetic probes, we directly observe the magnetotransport in a metallic system under the fundamental conditions, and determine the spin-dependent densities and momentum scattering times of conduction electrons. We show that traditional measurements significantly underestimate the spin asymmetry in electron scattering, a key parameter responsible for effects such as GMR. Furthermore, we demonstrate the possibility of magnetic modulation of terahertz waves, along with heat- and contact-free GMR readout using ultrafast terahertz signals.
Erscheinungsjahr
2015
Zeitschriftentitel
Nature Physics
Band
11
Ausgabe
9
Seite(n)
761-766
ISSN
1745-2473
eISSN
1745-2481
Page URI
https://pub.uni-bielefeld.de/record/2780418
Zitieren
Jin Z, Tkach A, Casper F, et al. Accessing the fundamentals of magnetotransport in metals with terahertz probes. Nature Physics. 2015;11(9):761-766.
Jin, Z., Tkach, A., Casper, F., Spetter, V., Grimm, H., Thomas, A., Kampfrath, T., et al. (2015). Accessing the fundamentals of magnetotransport in metals with terahertz probes. Nature Physics, 11(9), 761-766. https://doi.org/10.1038/NPHYS3384
Jin, Zuanming, Tkach, Alexander, Casper, Frederick, Spetter, Victor, Grimm, Hubert, Thomas, Andy, Kampfrath, Tobias, Bonn, Mischa, Klaeui, Mathias, and Turchinovich, Dmitry. 2015. “Accessing the fundamentals of magnetotransport in metals with terahertz probes”. Nature Physics 11 (9): 761-766.
Jin, Z., Tkach, A., Casper, F., Spetter, V., Grimm, H., Thomas, A., Kampfrath, T., Bonn, M., Klaeui, M., and Turchinovich, D. (2015). Accessing the fundamentals of magnetotransport in metals with terahertz probes. Nature Physics 11, 761-766.
Jin, Z., et al., 2015. Accessing the fundamentals of magnetotransport in metals with terahertz probes. Nature Physics, 11(9), p 761-766.
Z. Jin, et al., “Accessing the fundamentals of magnetotransport in metals with terahertz probes”, Nature Physics, vol. 11, 2015, pp. 761-766.
Jin, Z., Tkach, A., Casper, F., Spetter, V., Grimm, H., Thomas, A., Kampfrath, T., Bonn, M., Klaeui, M., Turchinovich, D.: Accessing the fundamentals of magnetotransport in metals with terahertz probes. Nature Physics. 11, 761-766 (2015).
Jin, Zuanming, Tkach, Alexander, Casper, Frederick, Spetter, Victor, Grimm, Hubert, Thomas, Andy, Kampfrath, Tobias, Bonn, Mischa, Klaeui, Mathias, and Turchinovich, Dmitry. “Accessing the fundamentals of magnetotransport in metals with terahertz probes”. Nature Physics 11.9 (2015): 761-766.
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