Thesis presented February 10, 2016
Abstract:
Superconducting quantum circuits are currently investigated in many labs. An important goal of this research is to build and couple several superconducting quantum bits for quantum information processing. The theoretical description of these circuits is based on the coupled dynamics of the superconducting phase differences at the Josephson junctions and the degrees of freedom of the surrounding electromagnetic environment. This nonlinear dynamics has been much studied in the classical regime. Quantum effects have been considered by perturbative methods, assuming that some degrees of freedom are thermalized. In contrast, the coupled quantum dynamics was largely unexplored in a non-perturbative regime. The goal of the trainee will be to describe the crossover between the classical and quantum regimes in the case of a single Josephson junction coupled to an electromagnetic resonator. For this, the candidate will study the master equations for this system with analytical and numerical methods. In the long term, the aim will be to understand how to generate and manipulate photons thanks to time-resolved electric control of the circuit.
Keywords:
Electromagnetic resonator, Josephson effect, Quantum superconducting circuits, Superconductivity
On-line thesis.