On the behaviour of a two dimensional Josephson tunnel junction in the weakly non-linear regime

A low-current density - large area, quadratic Josephson junction was investigated. The experimental set-up, designed for the investigation of chaos bifurcations, allowed a measurement of the frequency spectrum up to and above the maximum plasma frequency ( = 770 MHz) by means of a directly connected low noise 5 - 1000 MHz amplifier. The fundamental cavity resonance frequency ( ) in the linear limit was 4.3 GHz. The non-linear phenomena observed included (i) parametric half harmonic generation with (ii) parametric excitation of the plasma mode with (iii) selfpumped excitation of a "Fiske mode in one direction or a zero field" mode in the other (iv) selfpumped excitation of a two-dimensional mixed "Fiske mode" in a magnetic field. (v) rf induced cavity resonance steps at voltages V = (h/2e)( ) and (vi) usual rf induced . In spite of sufficient receiver sensitivity chaos bifurcations were not observed where simple theory predicts it.