Title :
Inductance computation of microscopic superconducting loop
Author :
Nakazato, T. ; Okabe, Y.
Author_Institution :
Res. Center for Adv. Sci. & Technol., Tokyo Univ., Japan
fDate :
6/1/1997 12:00:00 AM
Abstract :
Aimed for the design of superconducting digital circuits, a direct method is proposed to estimate the inductance of three-dimensional microscopic superconducting loop. This method directly computes current-density distribution by using the Maxwell equations and the expression of the momentum, which are both discretized; without free-energy minimization technique, we just solve a set of linear equations considering a spatially-discrete model. Computer simulation was carried out for various shapes of superconductors, and the simulated results agreed well with the Chang´s formula in a model which can be regarded as two-dimensional. The magnetic field distribution also agreed well with the theoretical value.
Keywords :
inductance; superconducting logic circuits; Maxwell equations; computer simulation; current density distribution; digital circuit design; inductance; linear equation; magnetic field distribution; momentum; spatially-discrete model; three-dimensional microscopic superconducting loop; Computational modeling; Computer simulation; Digital circuits; Distributed computing; Inductance; Maxwell equations; Microscopy; Minimization methods; Shape; Superconductivity;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
