posted on 2024-11-15, 15:13authored byE Baruch-El, M Baziljevich, Tom Johansen, A Shaulov, Y Yeshurun
By implementing a unique magneto-optical system with ultrafast magnetic-field ramping-rate capability (up to 3 kT/s), we have been able to routinely generate and image dendritic flux instabilities in YBa 2 Cu 3 O 7-x films. In the present work we study the effect of the film thickness on the dendritic instability. Dendritic avalanches in 50-600 nm thick films were magneto-optically imaged at 7 K, after ramping the magnetic field from zero to 60 mT at different rates. The data reveal a remarkable change in flux morphologies between the thin and the thicker films. While the former (50-250 nm) display well-developed dendritic patterns, the latter (350-600 nm) exhibit few avalanches with favored branch directions parallel to the film's edges. Several possible explanations for this behavior are discussed.
History
Citation
Baruch-El, E., Baziljevich, M., Johansen, T. H., Shaulov, A. & Yeshurun, Y. (2018). Thickness dependence of dendritic flux avalanches in YBa2Cu3O7-xfilms. Journal of Physics: Conference Series, 969 (1), 012042-1-012042-6.