Title :
Generation of single vortices and local detection by integrated dc SQUIDs
Author :
Peter, F. ; Grimm, M. ; Muck, M. ; Heiden, C.
Author_Institution :
Inst. fur Schicht- und Ionentechnik, Forschungszentrum Julich GmbH, Germany
fDate :
6/1/1995 12:00:00 AM
Abstract :
A test circuit for the local generation and detection of single vortices has been fabricated, based on a multilayer structure with low-pinning e-beam evaporated Nb and high-pinning reactively sputtered NbN films. The generation of vortices is performed by a current through a control line perpendicular to a low-pinning channel. For the detection and determination of the position of generated vortices, several dc SQUIDs were located around the low-pinning channel and the control line. The presence of single vortices in the channel lead to a shift in the dc SQUID flux-to-voltage transfer function. By computer simulations of the flux that a single vortex generates at the position of the SQUIDs, the number and location of generated vortices could be determined. The spatial resolution of this procedure was determined to be about /spl plusmn/1 /spl mu/m normal to and /spl plusmn/2 /spl mu/m along the channel.<>
Keywords :
SQUIDs; flux-line lattice; superconducting integrated circuits; Nb-NbN; computer simulation; control line; e-beam evaporated Nb film; flux-to-voltage transfer function; high-pinning channel; integrated DC SQUIDs; local detection; local generation; low-pinning channel; multilayer structure; reactively sputtered NbN film; single vortices; test circuit; Circuit testing; Clocks; Computer simulation; DC generators; Frequency; Magnetic domains; Magnetic materials; Niobium; SQUIDs; Superconducting films;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
