Lev S. Bishop
Published 2010-07-20Version 1
Circuit Quantum Electrodynamics (cQED), the study of the interaction between superconducting circuits behaving as artificial atoms and 1-dimensional transmission-line resonators, has shown much promise for quantum information processing tasks. For the purposes of quantum computing it is usual to approximate the artificial atoms as 2-level qubits, and much effort has been expended on attempts to isolate these qubits from the environment and to invent ever more sophisticated control and measurement schemes. Rather than focussing on these technological aspects of the field, this thesis investigates the opportunities for using these carefully engineered systems for answering questions of fundamental physics.
Comments: Yale University PhD Thesis (May 2010). 168 pages. To obtain hardcopies see http://www.levbishop.com/thesis/
High-Fidelity Readout in Circuit Quantum Electrodynamics Using the Jaynes-Cummings Nonlinearity
Bolometer operating at the threshold for circuit quantum electrodynamics
Vacuum-fluctuation-induced Dephasing of a Qubit in Circuit Quantum Electrodynamics
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