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Intrinsic Bulk Quantum Oscillations in a Bulk Unconventional Insulator SmB6

Máté Hartstein, Hsu Liu, Yu-Te Hsu, Beng S. Tan, Monica Ciomaga Hatnean, Geetha Balakrishnan, Suchitra E. Sebastian

2020iScience21 citationsDOIOpen Access PDF

Abstract

The finding of bulk quantum oscillations in the Kondo insulator SmB 6 proved a considerable surprise. Subsequent measurements of bulk quantum oscillations in other correlated insulators including YbB 12 lent support to our discovery of a class of bulk unconventional insulators that host bulk quantum oscillations. Here we perform a series of experiments to examine evidence for the intrinsic character of bulk quantum oscillations in floating zone-grown single crystals of SmB 6 that have been the subject of our quantum oscillation studies. We present results of thermodynamic, transport, and composition analysis experiments on pristine floating zone-grown single crystals of SmB 6 and compare quantum oscillations with metallic LaB 6 and elemental aluminum. These results establish the intrinsic origin of quantum oscillations from the insulating bulk of floating zone-grown SmB 6 . The similarity of the Fermi surface in insulating SmB 6 with the conduction-electron Fermi surface in metallic hexaborides is at the heart of a theoretical mystery.

Topics & Concepts

Quantum oscillationsCondensed matter physicsQuantumOscillation (cell signaling)Kondo insulatorFermi surfacePhysicsQuantum phasesMaterials scienceInsulator (electricity)Macroscopic quantum phenomenaMetalElectronic structureMetal–insulator transitionKondo effectStrongly correlated materialFermi energyQuantum dotQuantum wellFermi levelPhononElectrical resistivity and conductivityLuttinger liquidTopological insulatorRare-earth and actinide compoundsSuperconductivity in MgB2 and AlloysTopological Materials and Phenomena
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