Treffer: Numerical investigations on influence of B-dependent flow resistivity on third harmonics of generated magnetic field
Title:
Numerical investigations on influence of B-dependent flow resistivity on third harmonics of generated magnetic field
Authors:
Source:
Advances in Superconductivity XVI. Part IPhysica. C. Superconductivity. 412-14:723-728
Publisher Information:
Amsterdam: Elsevier Science, 2004.
Publication Year:
2004
Physical Description:
print, 8 ref 1
Original Material:
INIST-CNRS
Subject Terms:
Crystallography, Cristallographie cristallogenèse, Electronics, Electronique, Electrical engineering, Electrotechnique, Condensed state physics, Physique de l'état condensé, Sciences exactes et technologie, Exact sciences and technology, Physique, Physics, Etat condense: structure electronique, proprietes electriques, magnetiques et optiques, Condensed matter: electronic structure, electrical, magnetic, and optical properties, Supraconductivité, Superconductivity, Propriétés des supraconducteurs de type i et de type ii, Properties of type I and type II superconductors, Courants critiques, Critical currents, Cuprates supraconducteurs (supraconducteurs à haute tc et composés mères isolants), Cuprates superconductors (high tc and insulating parent compounds), Baryum oxyde, Barium oxides, Composé minéral, Inorganic compounds, Composé quaternaire, Quaternary compounds, Conductivité électrique, Electrical conductivity, Courant critique, Critical current, Cuivre oxyde, Copper oxides, Densité courant critique, Critical current density, Densidad corriente crítica, Effet champ magnétique, Magnetic field effects, Flux magnétique, Magnetic flux, Métal transition composé, Transition element compounds, Simulation ordinateur, Computerized simulation, Supraconducteur haute température, High-Tc superconductors, Yttrium oxyde, Yttrium oxides, 7425S, Ba Cu O Y, YBaCuO, 02.70.D, 07.05.T, 74.60.J, 74.72.B Galerkin method, Computer-modeling and simulation, Critical currents, YBCO
Time:
7472
Document Type:
Konferenz
Conference Paper
File Description:
text
Language:
English
Author Affiliations:
Department of Informatics, Faculty of Engineering, Yamagata University, 4-3-16, Johnan, Yonezawa, Yamagata 992-8510, Japan
School of Computer Science, Tokyo University of Technology, 1404-1, Katakura, Hachioji, Tokyo 192-0982, Japan
School of Computer Science, Tokyo University of Technology, 1404-1, Katakura, Hachioji, Tokyo 192-0982, Japan
ISSN:
0921-4534
Rights:
Copyright 2004 INIST-CNRS
CC BY 4.0
Sauf mention contraire ci-dessus, le contenu de cette notice bibliographique peut être utilisé dans le cadre d’une licence CC BY 4.0 Inist-CNRS / Unless otherwise stated above, the content of this bibliographic record may be used under a CC BY 4.0 licence by Inist-CNRS / A menos que se haya señalado antes, el contenido de este registro bibliográfico puede ser utilizado al amparo de una licencia CC BY 4.0 Inist-CNRS
CC BY 4.0
Sauf mention contraire ci-dessus, le contenu de cette notice bibliographique peut être utilisé dans le cadre d’une licence CC BY 4.0 Inist-CNRS / Unless otherwise stated above, the content of this bibliographic record may be used under a CC BY 4.0 licence by Inist-CNRS / A menos que se haya señalado antes, el contenido de este registro bibliográfico puede ser utilizado al amparo de una licencia CC BY 4.0 Inist-CNRS
Notes:
Physics of condensed state: electronic structure, electrical, magnetic and optical properties
Accession Number:
edscal.16178545
Database:
PASCAL Archive
Weitere Informationen
The numerical code for simulating the time evolution of the shielding current density in the high-temperature superconductor has been developed on the basis of the element-free Galerkin method. The magnetic flux density generated by the shielding current density is calculated by use of the code and its spectral analysis is performed. The results of computations show that an increase in the amplitude of the applied ac magnetic field will cause the appearance of the third harmonics of the magnetic flux density. Furthermore, it is found that the rapid growth of the third harmonics arises not from the B-dependence of the critical current density but from that of the flow resistivity.