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Field-resistant quantum interference in bismuth nanowire-based Josephson junctions
Sophie Gueron
Wed, Feb. 11th 2015, 11:15-12:00
SPEC Salle Itzykson, Bât.774, Orme des Merisiers

I will present our work on the superconducting proximity effect induced in crystalline bismuth nanowires, a system with extremely high Rashba spin-orbit coupling. By connecting these nanowires to superconducting electrodes with very high critical field, we have explored the proximity effect over a broad magnetic field range, up to a regime in which the Zeeman energy reaches the spin-orbit and Fermi energies of the Bismuth wires.

I will go into some detail about the complex interference pattern displayed by the critical current as a function of magnetic field. I will argue that it is due to both spin and orbital degrees of freedom, and is the tell-tale sign of low dimensionality, phase coherent conduction regions interfering within the nanowires.


Oscillations du courant critique induit dans le nanofil de bismuth, contacté à deux électrodes en tungstène supraconducteur.


Référence :

Magnetic field resistant quantum interferences in Josephson junctions based on bismuth nanowires
Chuan Li 1, A. Kasumov 1;5, A. Murani 1, Shamashis Sengupta 2, F. Fortuna 2, K. Napolskii 3;4, D. Koshkodaev4, G. Tsirlina 3, Y. Kasumov 5, I. Khodos 5, R. Deblock 1, M. Ferrier 1, S. Gueron 1 and H. Bouchiat1Phys. Rev. B 90, 245427 (2014).

1 LPS, Univ. Paris-Sud, CNRS, UMR 8502, F-91405 Orsay Cedex, France

2 CSNSM, Univ. Paris-Sud, IN2P3, UMR 8609, F-91405 Orsay Cedex, France

3 Faculty of Chemistry, Moscow State University, Russia

4 Department of Material Sciences, Moscow State University, Russia

5 Institute of Microelectronics Technology and High Purity Materials, Chernogolovka, Russia

Contact : Preden Roulleau


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