2018
DOI: 10.1103/physrevb.98.085305
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Large negative magnetoresistance driven by enhanced weak localization and Kondo effect at the interface of LaAlO3 and Fe-doped SrTiO3

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Cited by 19 publications
(16 citation statements)
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“…The resistance increases as a result of Kondo scattering of magnetic impurities. As temperature further decreases, the Kondo scattering is inhibited because of the formation of a singlet state between a localized Mn moment and a conduction electron, which screens the magnetic moments of the impurities (37).…”
Section: Kondo Effect and Gap Opening By Extended Mn Dopingmentioning
confidence: 99%
“…The resistance increases as a result of Kondo scattering of magnetic impurities. As temperature further decreases, the Kondo scattering is inhibited because of the formation of a singlet state between a localized Mn moment and a conduction electron, which screens the magnetic moments of the impurities (37).…”
Section: Kondo Effect and Gap Opening By Extended Mn Dopingmentioning
confidence: 99%
“…However, compared to other layered ternary chalcogenides and conventional semiconductors, FeNbTe 2 exhibits a puzzle electronic transport behaviors, i.e., resistivity slightly increases 10% as temperature decreases (Figure b), which is converse to other metallic layered ternary chalcogenides, however, the speed of resistance changing with temperature is significantly smaller than conventional semiconductors. This abnormal electronic transport behavior is usually discovered in low‐dimensional disordered structure, such as doped system, which is generally accompanied with nMR . Therefore, it is reasonable to expect that the FeNbTe 2 should be a promising candidate presenting nMR property, while it has not been reported so far.…”
mentioning
confidence: 99%
“…The final and the direct approach towards magnetic 2DEGs is the conventional doping with magnetic ions. [94][95][96] For example, a robust anomalous Hall effect 95 and large negative magnetoresistance 96 were observed when Fe-doped STO (Fe-STO) was used as the substrate for the fabrication of the conducting interface of LAO/Fe-STO. The anomalous Hall effect has been observed up to room temperature.…”
Section: Magnetic 2degs At Sto-based Heterointerfacesmentioning
confidence: 99%