Circuit Quantization in the Presence of Time-Dependent External Sources
ORAL
Abstract
Circuit quantization serves as a link between physical circuits and quantum Hamiltonians. The standard procedure [1] established decades ago implicitly assumes the external magnetic flux threading a circuit loop to be static. However, time-dependence arises inevitably when flux modulation or noise are considered. Naïve application of the existing circuit-quantization procedure can then lead to inconsistencies in predictions of qubit relaxation times. In this talk, we present a generalized approach to circuit quantization valid in the presence of time-dependent external sources. Our results uncover the reason for the inconsistency and resolve it, and are applicable to a wide range of circuits utilizing time-varying external fields.
[1] M. H. Devoret, Les Houches, Session LXIII 7 (1995)
[1] M. H. Devoret, Les Houches, Session LXIII 7 (1995)
*This research was supported by the Center for Applied Physics and Superconducting Technologies, Northwestern University and Fermi National Accelerator Laboratory.
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Presenters
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Xinyuan You
- Graduate Program in Applied Physics, Northwestern University