Increased in-field critical current density in neutron-irradiated MgB2 films

We study the critical current density J(c) of a series of MgB2 epitaxial thin films with disorder introduced in a controlled way by neutron irradiation. We find that the in-field Jc is significantly increased for an intermediate neutron fluence of similar to 7.6 x 10(17) cm(-2), reaching similar to 1.8 x 10(5) A cm(-2) at mu H-0 = 4 T, which is larger by more than one order of magnitude than the critical current density of the pristine sample. Moreover, in the same irradiated sample, J(c)(mu H-0 = 9 T) is still as large as 1.1 x 10(4) A cm(-2). By transmission electron microscopy, we find evidence of the presence of amorphous regions created by irradiation whose average size matches the coherence length xi(ab). Analysis of the shape of the critical current density and pinning force curves indicates that such regions with a suppressed superconducting order parameter behave as effective point-like pinning centers for magnetic flux lines.