Matching Items (3)

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Continuous control of spin polarization using a magnetic field

Description

The giant magnetoresistance (GMR) of a point contact between a Co/Cu multilayer and a superconductor tip varies for different bias voltage. Direct measurement of spin polarization by Andreev reflection spectroscopy

The giant magnetoresistance (GMR) of a point contact between a Co/Cu multilayer and a superconductor tip varies for different bias voltage. Direct measurement of spin polarization by Andreev reflection spectroscopy reveals that the GMR change is due to a change in spin polarization. This work demonstrates that the GMR structure can be utilized as a spin source and that the spin polarization can be continuously controlled by using an external magnetic field.

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  • 2016-05-23

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Determination of spin polarization using an unconventional iron superconductor

Description

An unconventional iron superconductor, SmO[subscript 0.7]F[subscript 0.3]FeAs, has been utilized to determine the spin polarization and temperature dependence of a highly spin-polarized material, La[subscript 0.67]Sr[subscript 0.33]MnO[subscript 3], with Andreev reflection

An unconventional iron superconductor, SmO[subscript 0.7]F[subscript 0.3]FeAs, has been utilized to determine the spin polarization and temperature dependence of a highly spin-polarized material, La[subscript 0.67]Sr[subscript 0.33]MnO[subscript 3], with Andreev reflection spectroscopy. The polarization value obtained is the same as that determined using a conventional superconductor Pb but the temperature dependence of the spin polarization can be measured up to 52 K, a temperature range, which is several times wider than that using a typical conventional superconductor. The result excludes spin-parallel triplet pairing in the iron superconductor.

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Date Created
  • 2016-11-21

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Fabrication of highly spin-polarized Co2FeAl0.5Si0.5 thin-films

Description

Ferromagnetic Heusler Co[subscript 2]FeAl[subscript 0.5]Si[subscript 0.5] epitaxial thin-films have been fabricated in the L2[subscript 1] structure with saturation magnetizations over 1200 emu/cm[superscript 3]. Andreev reflection measurements show that the spin

Ferromagnetic Heusler Co[subscript 2]FeAl[subscript 0.5]Si[subscript 0.5] epitaxial thin-films have been fabricated in the L2[subscript 1] structure with saturation magnetizations over 1200 emu/cm[superscript 3]. Andreev reflection measurements show that the spin polarization is as high as 80% in samples sputtered on unheated MgO (100) substrates and annealed at high temperatures. However, the spin polarization is considerably smaller in samples deposited on heated substrates.

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Date Created
  • 2014-04-15