Quantum microwaves with a DC-biased Josephson junction
Abstract
Tunneling of a Cooper pair through a dc-biased Josephson junction is possible only if collective excitations (photons) are produced in the rest of the circuit to conserve the energy. The probability of tunneling and photon... [ view full abstract ]
Authors
- Amboise Peugeot (SPEC, CEA Saclay, Université Paris Saclay)
- Chloé Rolland (SPEC, CEA Saclay, Université Paris Saclay)
- Marc Westig (Quantum Nanoscience Department, Kavli Institute of Nanoscience Delft University of Technology)
- Iouri Moukharski (SPEC, CEA Saclay, Université Paris Saclay)
- Denis Vion (SPEC, CEA Saclay, Université Paris Saclay)
- Carles Altimiras (SPEC, CEA Saclay, Université Paris Saclay)
- Philippe Joyez (SPEC, CEA Saclay, Université Paris Saclay)
- Patrice Roche (SPEC, CEA Saclay, Université Paris Saclay)
- Daniel Esteve (SPEC, CEA Saclay, Université Paris Saclay)
- Juha Leppakangas (Karlsruhe Institute of Technology | KIT · Institute for Theoretical Solid State Physics)
- Goran Johansson (Department of Microtechnology and Nanoscience (MC2), Chalmers University of Technology)
- Simon Dambach (Institute for Complex Quantum Systems University of Ulm)
- Bjoern Kubala (Institute for Complex Quantum Systems University of Ulm)
- Joachim Ankerhold (Institute for Complex Quantum Systems University of Ulm)
- Max Hofheinz (Département de génie électrique et de génie informatique, Faculté de génie, Université de Sherbrooke)
- Fabien Portier (SPEC, CEA Saclay, Université Paris Saclay)
Topic Areas
Fundamental science for quantum technologies , Superconducting circuits , Quantum optics and non-classical light sources
Session
OS1b-R235A » Superconducting circuits (16:40 - Wednesday, 5th September, Room 235A)
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