Title :
Instability in vortex system in HTSC
Author :
Janü, Z. ; Tichý, R. ; Plechacek, Vladimir
Author_Institution :
Inst. of Phys., Acad. of Sci., Rez, Czech Republic
fDate :
3/1/1994 12:00:00 AM
Abstract :
The recent progress in understanding of the vortex system behaviour in HTSC gives an evidence for spatial and temporal chaos-vortex glass and vortex diffusion and, on the other hand, an evidence for collective phenomena such as vortex flow. A deterministic temporal chaos-diffusion-is responsible for 1/f like noise generation and for irreversibility. These phenomena are well pronounced in frequency dependence of magnetization. They cannot be explained by Anderson-Kim model of the critical state or any extended model. We suggest a novel concept of the critical state in type II superconductors which is based on the phase transition in the vortex system dynamics. This phase transition represents a transition between the chaotic and correlated transport. The role of pinning, in this concept, is suppressing the collective state creation
Keywords :
chaos; flux flow; flux pinning; high-temperature superconductors; random noise; superconducting critical field; type II superconductors; 1/f like noise generation; HTSC; critical state; deterministic temporal chaos; phase transition; pinning; spatial chaos; type II superconductors; vortex diffusion; vortex flow; vortex glass; vortex system dynamics; vortex system instability; Chaos; Equations; Frequency dependence; Magnetic cores; Magnetic fields; Solitons; Superconductivity; Temperature dependence; Type II superconductors; Yttrium barium copper oxide;
Journal_Title :
Magnetics, IEEE Transactions on
