Interpretation of large room-temperature diamagnetism at low magnetic fields in films of oxidised atactic polypropylene in terms of superconducting current loops
Abstract
A simple model is used to analyse published results on large room-temperature diamagnetism for two films of oxidised atactic polypropylene (OAPP) at low magnetic fields. The model involves induced currents expected in circular closed loops of superconductors in fields below the lower critical field Hc1 at which flux penetration would first occur if a metamagnetic transition did not intervene as in OAPP, and the assumption that resistance would be restored at Hc1 (negligible pinning). Fits to the data for the more strongly magnetic sample with the model, allowing two different types of loops with different loop radii b1 and b2, but with the same cross section a of loop material yield Hc1 is approximately equal to 5260 Oe, and fits to the data for the less strongly magnetic sample with two loop sizes and with the same value of Hc1, combined with the knowledge that the minimum number of closed loops of any type is one, requires that the radius a of the cross section of the material should be less than about 0.8 micrometres, in fair agreement with a maximum radius of 1 micrometre obtained previously from other data.
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