″HOT ELECTRONS″ AND NEGATIVE RESISTANCE OF SUPERCONDUCTING MICROBRIDGES.

A model is presented to explain the differential negative resistance observed in superconducting microbridges. This model postulates the formation in the bridge of a non-equilibrium state where the superconducting gap is lowered and the critical current decreases as the voltage increases thus giving rise to a differential negative resistance. The effective temperature model of Parker is used to derive the current-voltage characteristic.