Systematic effects of carbon doping on the superconducting properties of Mg(B1-xCx)2
Abstract
The upper critical field, Hc2, of Mg(B1-xCx)2 has been measured in order to probe the maximum magnetic field range for superconductivity that can be attained by C doping. Carbon doped boron filaments are prepared by CVD techniques, and then these fibers are then exposed to Mg vapor to form the superconducting compound. The transition temperatures are depressed about 1 K/% C and Hc2(T=0) rises at about 5 T/% C. This means that 3.5% C will depress Tc from 39.2 K to 36.2 K and raise Hc2(T=0) from 16.0 T to 32.5 T. Higher fields are probably attainable in the region of 5% C to 7% C. These rises in Hc2 are accompanied by a rise in resistivity at 40 K from about 0.5 μ cm to about 10 μ cm. Given that the samples are polycrystalline wire segments, the experimentally determined Hc2(T) curves represent the upper Hc2(T) manifold associated with H c.
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