Anomalous Hall effect in quarternary Heusler-type Ni50 Mn 17 Fe8 Ga25 melt-spun ribbons

Zhiyong Zhu, Siu Wing Or, Guangheng Wu

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    Abstract

    The anomalous Hall effect (AHE) in quarternary Heusler-type Ni 50Mn17Fe8 Ga25 melt-spun ribbons is investigated. Experimental correlation between saturated anomalous Hall resistivity (ρ AMS) and longitudinal resistivity (ρxx) is achieved for the low-temperature martensitic phase and the high-temperature austenitic phase as ρAMS ∞ ρxx n=4.2 and ρAMS ∞ ρxx n=2.1, respectively. The unexpectedly large exponent of n=4.2 in the martensitic phase is found to contradict the traditional theory of AHE with n=1-2, but it can be explained by a side-jump model beyond the short-range limit as a result of the intermediate-range spin-dependent electron scattering by relatively large Mn-rich clusters instead. The restoration of the exponent back to a normal value of n=2.1 in the austenitic phase is ascribed to the domination of the electron scattering by phonons, compared to that by the Mn-rich clusters, at elevated temperatures and with phonon softening in the transverse-acoustic TA2 mode.

    Original languageEnglish (US)
    Article number032503
    JournalApplied Physics Letters
    Volume95
    Issue number3
    DOIs
    StatePublished - Jul 31 2009

    ASJC Scopus subject areas

    • Physics and Astronomy (miscellaneous)

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