Solving superconducting quantum circuits in Dirac's constraint analysis framework

Authors

Akshat Pandey, Indian Statistical Institute, Kolkata
Subir Ghosh, Indian Statistical Institute, Kolkata

Article Type

Research Article

Publication Title

Physica Scripta

Abstract

In this work we exploit Dirac's Constraint Analysis (DCA) in Hamiltonian formalism to study different types of Superconducting Quantum Circuits (SQC) in a unified way. The Lagrangian of a SQC reveals the constraints, that are classified in a Hamiltonian framework, such that redundant variables can be removed to isolate the canonical degrees of freedom for subsequent quantization of the Dirac Brackets via a generalized Correspondence Principle. This purely algebraic approach makes the application of concepts such as graph theory, null vector, loop charge, etc that are in vogue, (each for a specific type of circuit), completely redundant. The universal validity ofDCAscheme in SQC, proposed by us, is demonstrated by correctly re-deriving existing results for different SQCs, obtained previously exploiting different formalisms each applicable for a specific SQC. Furthermore, we have also analysed and predicted new results for a generic form of SQC - it will be interesting to see its validation in an explicit circuit implementation.

DOI

10.1088/1402-4896/ad8842

Publication Date

12-1-2024

Recommended Citation

Pandey, Akshat and Ghosh, Subir, "Solving superconducting quantum circuits in Dirac's constraint analysis framework" (2024). Journal Articles. 5088.
https://digitalcommons.isical.ac.in/journal-articles/5088