Thursday, March 21, 2013

1303.4754 (A. A. Shablo et al.)

The displacement and annihilation of macroscopic regions with
hypervortices in ceramic YBa2Cu3O7-x
   [PDF]

A. A. Shablo, V. P. Koverya, S. I. Bondarenko
Features of the controllable displacement, annihilation, and transformation of macroscopic regions of a weak frozen magnetic field (FMF) have been experimentally studied in a plate of granulated ceramic YBa2Cu3O7-x under the action of the transport current flowing through it. It is shown that the displacement of regions with an FMF lower than the first critical field of the ceramic granules (Hc1g) is associated with a relatively weak pinning force of the hypervortices that is less than the maximum experimentally attainable Lorenz force. A discussion is presented of the role of the transport current that not only is one of the conditions for the appearance of the Lorenz force but also acts on the internal current structure of the local FMF, which in turn influences its mobility and magnitude. If a local field greater than Hc1g is frozen in, the experimentally produced Lorenz force is less than the pinning force of the Abrikosov vortices in the mixed state of the granules, and there is no displacement of the regions with an FMF.
View original: http://arxiv.org/abs/1303.4754

No comments:

Post a Comment