We propose an efficient light-matter interface at optical frequencies between a single photon and a superconducting qubit. The desired interface is based on a hybrid architecture composed of an organic molecule embedded inside an optical waveguide and electrically coupled to a superconducting qubit placed near the outside surface of the waveguide. We show that high fidelity, photon-mediated, entanglement between distant superconducting qubits can be achieved with incident pulses at the single photon level. Such a low light level is highly desirable for achieving a coherent optical interface with superconducting qubit, since it minimizes decoherence arising from the absorption of light.
@article{arxiv.1607.06271,
title = {Interfacing superconducting qubits and single optical photons using molecules in waveguides},
author = {Sumanta Das and Vincent E. Elfving and Sanli Faez and Anders S. Sørensen},
journal= {arXiv preprint arXiv:1607.06271},
year = {2017}
}
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5 pages of main text and 13 pages of supplementary material