The non-linear dependence on applied ac field (bΟβ) or current (iΟβ) of the microwave (ac) impedance RΟβ+iXΟβ of both
short and long Josephson junctions is calculated under a variety of excitation
conditions. The dependence on the junction width is studied, for both field
symmetric (current anti-symmetric) and field anti-symmetric (current symmetric)
excitation configurations.The resistance shows step-like features every time a
fluxon (soliton) enters the junction, with a corresponding phase slip seen in
the reactance. For finite widths the interference of fluxons leads to some
interesting effects which are described. Many of these calculated results are
observed in microwave impedance measurements on intrinsic and fabricated
Josephson junctions in the high temperature superconductors, and new effects
are suggested. When a field (bdcβ) or current (idcβ) is applied,
interesting phase locking effects are observed in the ac impedance
ZΟβ. In particular an almost periodic dependence on the dc bias is
seen similar to that observed in microwave experiments at very low dc field
bias. These results are generic to all systems with a cos(Ο) potential
in the overdamped limit and subjected to an ac drive.Comment: 7 pages, 11 figure