Effective model of nonlinear circuit quantum electrodynamics

Simon Nigg; Michel Devoret; Steven Girvin

Effective model of nonlinear circuit quantum electrodynamics

ORAL

Abstract

Superconducting electronic circuits containing nonlinear elements such as Josephson junctions are of interest for quantum information processing. The low-energy spectrum of such circuits can now be measured to a precision of better than one part per million. A precise knowledge of their Hamiltonian that goes beyond current models is thus desirable. In this talk I will show how to quantize a superconducting, weakly nonlinear circuit from the knowledge of its classical linear admittance matrix. This approach represents a change of paradigm in circuit quantum electrodynamics and may potentially become a useful alternative to the standard models based on the language of atomic physics and quantum optics.

^*I acknowledge financial support from the Swiss National Science Foundation.

Feb. 28, 2012, 3:54 PM – Feb. 28, 2012, 4:06 PM

Authors

Simon Nigg
- Physics Department Yale University
- Physics Department, Yale University
Michel Devoret
- Yale University, Applied Physics
- Yale University
- Applied Physics Department Yale University
- Department of Applied Physics, Yale University
- Departments of Physics and Applied Physics, Yale University
- Applied Physics - Yale University
- Yale University, Dept. of Applied Physics
- Applied Physics Dept. Yale University
Steven Girvin
- Department of Physics, Yale University
- Yale University
- Physics Department Yale University
- Physics Department, Yale University
- Departments of Physics and Applied Physics, Yale University, New Haven, Connecticut 06520, USA