1003.4045 (Yoshihiko Nonomura)

Nontrivial in-plane-magnetic-field dependence of THz wave emission from
intrinsic Josephson junctions controlled by surface impedance    [PDF]

Yoshihiko Nonomura

In THz wave emission from intrinsic Josephson junctions in in-plane magnetic fields, emission intensity strongly depends on the surface impedance $Z$ similarly to the case without external magnetic fields. Cavity resonance modes are stabilized for $Z \ge 3$, and the fundamental mode gives the strongest emission. As the in-plane magnetic field increases for a fixed number of junctions, dynamical phase transitions seem to occur between the $\pi$-phase-kink state, various incommensurate phase-kink states, and in-phase state. As $Z$ varies, a crossover of the field profile of maximum intensity takes place for $Z \approx 50$ between characteristic peaks for smaller $Z$ (typically $Z \approx 30$) and monotonic decrease for larger $Z$ (typically $Z \approx 70$). The double-peak structure reported in experiments can be explained for Z=30 by finite-size analysis with respect to number of junctions.

View original: http://arxiv.org/abs/1003.4045