Koshelets, V. P.2; Shitov, S. V.2; Dmitriev, P. N.2; Ermakov, A. B.2; Sobolev, A. S.2; Torgashin, M. Y.2; Khodos, V. V.2; Vaks, V. L.2; Wesselius, P. R.2; Mahaini, C.2; Mygind, Jesper1
1 Department of Physics, Technical University of Denmark2 unknown
A Josephson Flux Flow Oscillator (FFO) is the most developed superconducting local oscillator for integration with an SIS mixer in a single-chip submm-wave receiver. Recently, using a new FFO design, a free-running linewidth less than or equal to10 MHz has been measured in the frequency range up to 712 GHz, limited only by the gap frequency of Nb. This enabled us to phase lock the FFO in the frequency range 500-712 GHz where continuous frequency tuning is possible; resulting in an absolute FFO phase noise as low as -80 dBc at 707 GHz. Comprehensive measurements of the FFO radiation linewidth have been performed using an integrated SIS harmonic mixer. The influence of FFO parameters on radiation linewidth, particularly the effect of the differential resistances associated both with the bias current and the applied magnetic field has been studied in order to further optimize the FFO design. A new approach with a self-shielded FFO has been developed and experimentally tested.