Irreversible proliferation of magnetic moments at cleaved surfaces of the topological Kondo insulator 
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He, Hailang; Miao, Lin; Augustin, Edwin; Chiu, Janet; Wexler, Surge; Breitweiser, S. Alexander; Kang, Beom‐Goo; Cho, B. K.; Min, Chul‐Hee; Reinert, F.; Chuang, Yi‐De; Denlinger, Jonathan D.; Wray, L. Andrew

doi:10.1103/physrevb.95.195126

Cited by 8 publications

(2 citation statements)

References 41 publications

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“…2j Ce30 ISm map, due to the small dynamic range of the color scale. We note that the gradients in the E4f maps do not appear to be associated with aging, as they align with the diagonal of the image rather than with the left-to-right time-axis of the measurement, and the sign of the timeaxis gradient in Eu05 is opposite to expectations based on the oxidative trend of surface aging [31][32] .…”

Section: Sample Agingcontrasting

confidence: 73%

Metallic chemical potentials in an insulating topological state

Kotta

Lee

et al. 2022

Preprint

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Controlling the density of electrons inside an insulator via the chemical potential is a cornerstone of modern electronics, enabling the electrical conductivity of semiconductors and the emergence of fascinating new properties linked with electronic correlations. The compound SmB6 has drawn widespread attention in recent years as the first insulator to feature both strong electronic correlations and topological quantum order1-7, potentially enabling a host of new phenomenologies as charge density is modified. However, chemical potential has not been experimentally controlled in studies to date of the electronic structure. Here we present an angle-resolved photoemission spectromicroscopy (μ-ARPES) study of SmB6 alloys, using the natural inhomogeneity of sample surfaces to create the analogue of a multi-dimensional doping series. The role of electronic correlations is observed in the interplay of the topologically ordered conducting states with one another and with the chemical potential. Higher doping is found to result in the transformation of these interdependencies as the disorder from impurities erodes quantum coherence. These findings set the stage for a holistic understanding of the interplay between strong correlations and topological features in the electron system. Moreover, they validate recent analyses suggesting that the electronic structure of SmB6 can present the key hallmarks of conventional electron doping, such as a Fermi surface, while nonetheless preserving long-range insulating character in electrical transport measurements8-10.

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Section: Sample Agingcontrasting

confidence: 73%

Metallic chemical potentials in an insulating topological state

Kotta

Lee

et al. 2022

Preprint

Self Cite

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“…In addition, Fuhrman et al report that the Sm 3+ magnetic dipole moment antialigns with an applied magnetic field below T = 75 K and suggest that Sm 3+ couples antiferromagnetically to large-moment paramagnetic impurities known to be present in the samples. Sm N-edge x-ray absorption spectroscopy has also been performed on flux-grown SmB 6 [159]. He et al show that the Sm 3+ contribution on a cleaved surface increases irreversibly with time as it ages in an ultra-high-vacuum chamber.…”

Section: X-ray Neutron and Mössbauer Spectroscopiesmentioning

confidence: 99%

Bulk and surface properties of SmB6

Rosa¹,

Fisk²

2020

Preprint

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Samarium hexaboride crystallizes in a simple cubic structure (space group #221, Pm3m), but its properties are far from being straightforward. Initially classified as a Kondo insulator born out of its intriguing intermediate valence ground state, SmB 6 has been recently predicted to be a strongly correlated topological insulator. The subsequent experimental discovery of surface states has revived the interest in SmB 6 , and our purpose here is to review the extensive and in many aspects perplexing experimental record of this material. We will discuss both surface and bulk properties of SmB 6 with an emphasis on the role of crystal growth and sample preparation. We will also highlight the remaining mysteries and open questions in the field.Rare-Earth Borides Dmytro S. Inosov (ed.

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Emergent mystery in the Kondo insulator samarium hexaboride

Sun

Kurdak

et al. 2020

Nat Rev Phys

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Irreversible proliferation of magnetic moments at cleaved surfaces of the topological Kondo insulator SmB6

Cited by 8 publications

References 41 publications

Metallic chemical potentials in an insulating topological state

Metallic chemical potentials in an insulating topological state

Bulk and surface properties of SmB6

Emergent mystery in the Kondo insulator samarium hexaboride

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