We report the results of an experimental study the dynamics of magnetic flux penetration into thin-walled Nb cylinders in a swept magnetic field. Nb film was deposited on the four sides of two sapphire substrates with cross section sizes 3 by 1.4 mm, but with different lengths: 7.5 and 21 mm. The Nb cylinders film thickness was 100 nm. The measurements were performed using pick-up coil method. It is shown that magnetic field penetrates through the cylinder wall in a series of giant jumps under magnetic fields lower and above H_c1 [1]. The time dependence of the internal magnetic field during the jump was calculated. It turns out that the internal field oscillates. Magnetic field and current density distribution in thin-walled cylinders of finite length was calculated numerically. Results showed that these jumps could be the manifestation of a field singularity at the end sides of a hollow superconducting cylinder.

[1] M.I. Tsindlekht, V.M. Genkin, I. Felner, F. Zeides, N. Katz, Š. Gazi, and Š. Chromik, “Giant flux jumps through a thin superconducting Nb film in a vortex free region”, Physica C 529, 1 (2016).