Quantum circuits allow to exploit and control individually complex quantum properties such as electronic correlations, quantum interference and entanglement. The fundamental building blocks of these circuits can be tailored from metals, semiconductors, magnetic materials, and especially superconductors, thanks to the design of ultra small devices down to the nanometer scale. Remarkable physical behavior and emergent quantum phenomena, that can be observed by electronic transport, are investigated theoretically from models using analytic and numerical techniques, often in contact with state-of-the-art experimental studies.
Person in charge: Serge FLORENS
Serge FLORENS
Personnel Chercheur - CNRS
Serge.Florens [at] neel.cnrs.fr
Phone: 04 76 88 74 54
Office: M-208
Régis MELIN
Personnel Chercheur - CNRS
Regis.Melin [at] neel.cnrs.fr
Phone: 04 76 88 11 88
Office: M-206
Yuriel NUNEZ-FERNANDEZ
Personnel Chercheur - CNRS
yuriel.nunez-fernandez [at] neel.cnrs.fr
Office: M-209
Referent: Serge FLORENS
Tojosoa-Nantenaina RAVELOARIJAONA
Personnel Chercheur - UGA
tojosoa-nantenaina.raveloarijaona [at] neel.cnrs.fr
Office: M-209
Referent: Serge FLORENS