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Observation of orbital two-channel Kondo effect in a ferromagnetic L10-MnGa film

The experimental existence and stability of the quantum criticality point of the two-channel Kondo (2CK) effect displaying exotic non-Fermi liquid physics has been buried in persistent confusion despite the intensive theoretical and experimental efforts in past three decades. Here we report an experimental realization of the two-level system scattering-induced orbital 2CK effect in a ferromagnetic L10-MnGa film, which is signified by a magnetic field-independent resistivity upturn that has a logarithmic and square-root temperature dependence beyond and below the Kondo temperature of ~14.5 K, respectively. Our result not only evidences the robust existence of orbital 2CK effect even in the presence of strong magnetic fields and long-range ferromagnetic ordering but also extends the scope of 2CK host materials from nonmagnetic nanoscale point contacts to diffusive conductors of disordered alloys.

preprint2016arXivOpen access
L. J. ZhuG. WoltersdorfJ. H. Zhao
cond-mat.str-el
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L. J. ZhuG. WoltersdorfJ. H. Zhao

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