Momentum-space imaging of Cooper pairing in a half-Dirac-gas topological superconductor

Superconductivity involving topological Dirac electrons has recently been proposed as a platform between concepts in high-energy and condensed-matter physics. It has been predicted that supersymmetry and Majorana fermions, both of which remain elusive in particle physics, may be realized through eme...

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Bibliographic Details
Published in:Nature physics 2014-12, Vol.10 (12), p.943-950
Main Authors: Xu, Su-Yang, Alidoust, Nasser, Belopolski, Ilya, Richardella, Anthony, Liu, Chang, Neupane, Madhab, Bian, Guang, Huang, Song-Hsun, Sankar, Raman, Fang, Chen, Dellabetta, Brian, Dai, Wenqing, Li, Qi, Gilbert, Matthew J., Chou, Fangcheng, Samarth, Nitin, Hasan, M. Zahid
Format: Article
Language:English
Subjects:
140/146
639/301/119/1003
639/766/119/2792
639/766/119/544
Atomic
Classical and Continuum Physics
Complex Systems
Condensed Matter Physics
Degrees of freedom
Electrons
Imaging
Mathematical analysis
Mathematical and Computational Physics
Molecular
Optical and Plasma Physics
Physics
Platforms
Quantum physics
Studies
Superconductivity
Superconductors
Supersymmetry
Theoretical
Topology
Two dimensional
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Summary:Superconductivity involving topological Dirac electrons has recently been proposed as a platform between concepts in high-energy and condensed-matter physics. It has been predicted that supersymmetry and Majorana fermions, both of which remain elusive in particle physics, may be realized through emergent particles in these particular superconducting systems. Using artificially fabricated topological-insulator–superconductor heterostructures, we present direct spectroscopic evidence for the existence of Cooper pairing in a weakly interacting half Dirac gas. Our studies reveal that two dimensional topological superconductivity in a helical Dirac gas is distinctly different from that in an ordinary two-dimensional superconductor in terms of the spin degrees of freedom of electrons. We further show that the pairing of Dirac electrons can be suppressed by time-reversal symmetry-breaking impurities, thereby removing the distinction. Our demonstration and momentum-space imaging of Cooper pairing in a half-Dirac-gas two-dimensional topological superconductor serve as a critically important platform for future testing of fundamental physics predictions such as emergent supersymmetry and topological quantum criticality. Supersymmetry and Majorana fermions that are their own antiparticles are both concepts from particle physics that may become testable in condensed-matter systems. The observation of Cooper pairs in a helical Dirac gas brings this goal a step closer.
ISSN:1745-2473
1745-2481
DOI:10.1038/nphys3139