C. Krutzler, M. Zehetmayer, M. Eisterer, H. W. Weber, N.D. Zhigadlo, J. Karpinski:
"Modification of the defect structure in MgB2 single crystals by carbon doping and neutron irradiation";
Physica C: Superconductivity and its Applications,
Carbon doping and neutron irradiation change the reversible parameters of pure MgB2 in a similar way, but influence the irreversible
properties quite differently. In doped Mg(B1 xCx)2 the modified reversible parameters lead to decreased pinning at low fields compared
to pure MgB2. On the other hand, the creation of defects results in the emergence of a second peak in Jc near Hc2. Contrary, in irradiated
MgB2 an irreversible magnetization over most of the field range is observed. Irradiation of doped MgB2 leads to irreversible properties
that are comparable to those of undoped irradiated MgB2 indicating, that the neutron induced defects dominate the irreversible behaviour.
When discussing the fishtail in terms of an order-disorder transition of the vortex lattice, we obtain clearly different values for the
density and the radius of the introduced defects in case of doping compared to irradiation. The results for the doped irradiated sample
agree again with those from irradiation only. Thus, the defect matrix introduced by neutron irradiation is much more efficient in enhancing
Jc due to the larger defect radius, which is comparable to the coherence length of the material.
Erstellt aus der Publikationsdatenbank der Technischen Universitšt Wien.