We analyze the consequences resulting from the asymmetric boundary conditions imposed by a nonuniform 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 lambda(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 approximate to lambda(j)) and long (L > lambda(j)) junctions. We consider both uniform and delta-shaped bias distributions. We also speculate on the possibility of exploiting the unique static properties of this system for basic experiments and devices.
Planar Josephson tunnel junctions in an asymmetric magnetic field
Roberto Monaco
2010
Abstract
We analyze the consequences resulting from the asymmetric boundary conditions imposed by a nonuniform 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 lambda(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 approximate to lambda(j)) and long (L > lambda(j)) junctions. We consider both uniform and delta-shaped bias distributions. We also speculate on the possibility of exploiting the unique static properties of this system for basic experiments and devices.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
