Abstract
•Enhancement the critical current density and other superconducting parameters of MgB2.•A comprehensive comparison between pure and "nC, B4C, and Sucrose" doped MgB2 samples.•Preparing samples using standard solid-state reaction method under the seam conditions.•Behavior of critical current density in existence of external magnetic field.•Resistivity behavior against temperature under applying different magnetic fields.
The effect of nC, B4C, and sucrose doped MgB2 superconductors prepared under the same conditions in one patch were compared in this study. The samples were prepared in a stoichiometric ratio such that x = 1 in the composite (MgB2-xCx), and the sintering temperature was 750 °C. Considerable improvement in magnetic flux pinning was observed in nC and sucrose compared to the pure and B4C-doped MgB2 samples. Subsequently, similar behavior was found for the critical current density, JC (B, T), and upper critical magnetic field, BC2 (T). The volume pinning force, FP, of the nC-doped MgB2 sample reaches its maximum values (>2 GN/m3) at 20 K and 1.14 T. The corresponding JC is 1.87 × 105 A/cm2, which is double the value of the pure sample. JC (9T,5 K) of nC -doped MgB2 was 50 times greater than the corresponding value of pure sample. The sucrose-doped MgB2 is the best in terms of BC2 enhancement. The estimated BC2 at 0 K of this sample shows a considerable value: BC2 (0) ~ 33T.