Superconductivity, critical current density, and flux pinning in MgB2−x(SiC)x/2 superconductor after SiC nanoparticle doping

Abstract: We investigated the effect of SiC nano-particle doping on the crystal lattice structure, critical temperature Tc, critical current density Jc, and flux pinning in MgB2 superconductor. A series of MgB2−x(SiC) x/2 samples with x = 0 to 1.0 were fabricated using in-situ reaction process. The contraction of the lattice and depression of Tc with increasing SiC doping level remained rather small due to the counter-balanced effect of Si and C co-doping. The high level Si and C co-doping allowed the creation of intra-… Show more

“…This is a typical characteristic for HTS in which weak links are the dominating factor for current flow. We do not have this weak link characteristics even at higher doping levels for non-magnetic dopants [16]. 20%SiC addition to MgB 2 not only showed no such weak link feature but had a strong enhancement effect on J c (H) [17].…”

“…Kuzmann et al [3] and Guo et al [16] suggested possible Fe substitution in the Mg site in the MgB 2 lattice [3]. Because these techniques were applied to an entire sample the claim of Fe substitution for Mg was inconclusive.…”

The effect of nanoscale Fe doping on the superconducting properties of MgB₂

“…This is a typical characteristic for HTS in which weak links are the dominating factor for current flow. We do not have this weak link characteristics even at higher doping levels for non-magnetic dopants [16]. 20%SiC addition to MgB 2 not only showed no such weak link feature but had a strong enhancement effect on J c (H) [17].…”

“…Kuzmann et al [3] and Guo et al [16] suggested possible Fe substitution in the Mg site in the MgB 2 lattice [3]. Because these techniques were applied to an entire sample the claim of Fe substitution for Mg was inconclusive.…”

The effect of nanoscale Fe doping on the superconducting properties of MgB₂

“…The authors' group found that doping of MgB 2 with nanoparticle SiC can significantly enhance J c in high fields, with only slight reductions in T c up to a doping level as high as 30% of B. 10 Compared to the undoped sample, the J c for the 10 wt % SiC doped sample increased by more than an order of magnitude at all temperatures and in the high field region. The exceptional properties of SiC as a dopant have been verified by a number of groups over the past few years.…”

The effect of doping level and sintering temperature on Jc(H) performance in nano-SiC doped and pure MgB2 wires

“…This might be expected since the primary role of SiC is to increase the H irr and H c2 . Nevertheless some increases in pinning have also been seen [14][15][16][17] , but not in the present case at higher temperatures and lower fields.. …”

“…An anisotropy factor of about 1. 4 12,13,14 have studied the effects of nano-Si doping 14 , nano-carbon doping 15 , and carbon nanotube doping 16,17 on the properties of MgB 2 strands. Glowacki 18,19 has also been pursuing PIT MgB 2 , with useful demonstrations particularly with regard to cables and shielding.…”

Transport and magnetic Jc of MgB2 strands and small helical coils