Clean and Dirty Superconductivity in Pure, Al doped, and Neutron Irradiated MgB2: a Far-Infrared Study
Abstract
The effects of Al substitution and neutron irradiation on the conduction regime (clean or dirty) of the π- and σ-band of MgB2 have been investigated by means of far-infrared spectroscopy. The intensity reflected by well characterized polycrystalline samples was measured up to 100 cm- 1 in both normal and superconducting state. The analysis of the superconducting to normal reflectivity ratios shows that only the effect of the opening of the small gap in the dirty π-band can be clearly observed in pure MgB2, consistently with previous results. In Al-doped samples the dirty character of the π-band is increased, while no definitive conclusion on the conduction regime of the σ -band can be drawn. On the contrary, results obtained for the irradiated sample show that the irradiation-induced disorder drives the σ-band in the dirty regime, making the large gap in σ-band observable for the first time in far-infrared measurements.
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