Planar Josephson Tunnel Junctions in an Asymmetric Magnetic Field
arXiv:1006.0266 · doi:10.1063/1.3467790
Abstract
We analyze the consequences resulting from the asymmetric boundary conditions imposed by a non-uniform external magnetic field at the extremities of a planar Josephson tunnel junction and predict a number of testable signatures. When the junction length $L$ is smaller than its Josephson penetration depth $λ_j$, static analytical calculations lead to a Fresnel-like magnetic diffraction pattern, rather than a Fraunhofer-like one typical of a uniform field. Numerical simulations allow to investigate intermediate length ($L\approx λ_j$) and long ($L>λ_j$) junctions. We consider both uniform and $δ$-shaped bias distributions. We also speculate on the possibility of exploiting the unique static properties of this system for basic experiments and devices.
9 pages, 3 figures