Theory of the Josephson Junction Laser

ORAL

Abstract

We develop an analytic theory for the recently demonstrated Josephson Junction laser [Cassidy, et al, Science 355, 939 (2017) ]. These devices are built with standard transmon-waveguide technology and are potentially useful as gigahertz sources for quantum computing applications. By working in the time-domain representation (rather than the frequency-domain) a single non-linear equation is obtained for the dynamics of the device, which is fully solvable in some regimes of operation. The nonlinear drive is seen to lead to mode-locked output, with a period set by the round-trip time of the resonant cavity.

*SHS has been supported by the Niels Bohr International Academy, the Simons foundation, and EPSRC Grants EP/I031014/1 and EP/N01930X/1. NRC is supported by EPSRC Grants EP/P034616/1 and EP/K030094/1.

Presenters

  • Steven Simon

    • Rudolf Peierls Centre for Theoretical Physics, University of Oxford
    • Rudolf Peierls Centre for Theoretical Physics
    • Rudolf Peierls Center for Theoretical Physics, Oxford University

Authors

  • Steven Simon

    • Rudolf Peierls Centre for Theoretical Physics, University of Oxford
    • Rudolf Peierls Centre for Theoretical Physics
    • Rudolf Peierls Center for Theoretical Physics, Oxford University

  • Nigel Cooper

    • T.C.M. Group, Cavendish Laboratory
    • Cavendish Laboratory, Univ of Cambridge
    • T.C.M Group, Cavendish Laboratory, Cambridge University