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Quantum spin fluctuations in the bulk insulating state of pure and Fe-doped SmB6

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arxiv 1702.02198 v2 pith:R3I3RCYC submitted 2017-02-07 cond-mat.str-el

Quantum spin fluctuations in the bulk insulating state of pure and Fe-doped SmB6

classification cond-mat.str-el
keywords bulkinsulatingsmb6electronsfe-dopedfluctuationsinsulatormagnetic
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The intermediate-valence compound SmB6 is a well-known Kondo insulator, in which hybridization of itinerant 5d electrons with localized 4f electrons leads to a transition from metallic to insulating behavior at low temperatures. Recent studies suggest that SmB6 is a topological insulator, with topological metallic surface states emerging from a fully insulating hybridized bulk band structure. Here we locally probe the bulk magnetic properties of pure and 0.5 % Fe-doped SmB6 by muon spin rotation/relaxation methods. Below 6 K the Fe impurity induces simultaneous changes in the bulk local magnetism and the electrical conductivity. In the low-temperature insulating bulk state we observe a temperature-independent dynamic relaxation rate indicative of low-lying magnetic excitations driven primarily by quantum fluctuations.

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