BCS-BEC crossover and the topological band structure of Fe(Se,Te)
ORAL · Invited
Abstract
Fe1+ySexTe1-xis a nearly compensated semimetal, where both electron and hole pockets are very shallow, with Fermi energies, εF, of only a few meV. We realize the BCS-BEC crossover by tuning the Fermi energy via chemical doping, which permits us to systematically change Δ/εFfrom 0.16 to 0.50, where Δ is the superconducting gap. We use angle-resolved photoemission spectroscopy to measure the Fermi energy, the SC gap and characteristic changes in the SC state electronic dispersion as the system evolves from a BCS to a BEC regime.
The same compound has recently emerged as a promising candidate to host topological superconductivity. We show that the small Fermi energy combined with the strong electronic correlations in Fe1+ySexTe1-xallows a unique situation where a relatively small spin-orbit coupling can lead to topological superconductivity with well isolated Majorana states in the vortex cores.
The same compound has recently emerged as a promising candidate to host topological superconductivity. We show that the small Fermi energy combined with the strong electronic correlations in Fe1+ySexTe1-xallows a unique situation where a relatively small spin-orbit coupling can lead to topological superconductivity with well isolated Majorana states in the vortex cores.
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Publication: Himanshu Lohani, Tamaghna Hazra, Amit Ribak, Yuval Nitzav, Huixia Fu, Binghai Yan, Mohit Randeria, Amit Kanigel,
Presenters
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Amit Kanigel
- Technion, Israel
- Technion - Israel Institute of Technolog