Superconducting charge qubits from a microscopic many-body perspective
Abstract
The quantised Josephson junction equation that underpins the behaviour of charge qubits and other tunnel devices is usually derived through cannonical quantisation of the classical macroscopic Josephson relations. However, this approach may neglect effects due to the fact that the charge qubit consists of a superconducting island of finite size connected to a large superconductor. We show that the well known quantised Josephson equation can be derived directly and simply from a microscopic many-body Hamiltonian. By choosing the appropriate strong coupling limit we produce a highly simplified Hamiltonian that nevertheless allows us to go beyond the mean field limit and predict further finite-size terms in addition to the basic equation.
Keywords
Cite
@article{arxiv.0709.3460,
title = {Superconducting charge qubits from a microscopic many-body perspective},
author = {D. A. Rodrigues and T. P. Spiller and J. F. Annett and B. L. Györffy},
journal= {arXiv preprint arXiv:0709.3460},
year = {2009}
}
Comments
Accepted for J Phys Condensed Matter