Superconducting materials exhibit an experimentally verified nonlinear dependence with respect to the magnetic field. In this paper, this nonlinearity is taken into account in the evaluation of the attenuation constant in propagating structures of pratical usage. Quadratic and cubic nonlinearities are considered and an iterative numerical procedure is applied to calculate the attenuation constant. The nonlinearity in the penetration depth is also considered. In the results section, some typical structures are investigated. In particular, parallel-plane transmission lines filled by dielectric materials, microstrip lines, and striplines are considered. Comparisons with exsisting results show that this nonlinear behavior cause significant changes in the attenuation parameters. The final version of this paper is available at: http://www.agu.org/pubs/
A Numerical Approach for the Evaluation of the Nonlinear Effects on the Attenuation Constant in High Temperature Superconduction Transmission Lines / Caorsi, S.; Massa, Andrea; Pastorino, Matteo; Donelli, Massimo. - ELETTRONICO. - (2001), pp. 1-24.
A Numerical Approach for the Evaluation of the Nonlinear Effects on the Attenuation Constant in High Temperature Superconduction Transmission Lines
Massa, AndreaPenultimo
;Donelli, MassimoSecondo
2001-01-01
Abstract
Superconducting materials exhibit an experimentally verified nonlinear dependence with respect to the magnetic field. In this paper, this nonlinearity is taken into account in the evaluation of the attenuation constant in propagating structures of pratical usage. Quadratic and cubic nonlinearities are considered and an iterative numerical procedure is applied to calculate the attenuation constant. The nonlinearity in the penetration depth is also considered. In the results section, some typical structures are investigated. In particular, parallel-plane transmission lines filled by dielectric materials, microstrip lines, and striplines are considered. Comparisons with exsisting results show that this nonlinear behavior cause significant changes in the attenuation parameters. The final version of this paper is available at: http://www.agu.org/pubs/File | Dimensione | Formato | |
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