Bi-based and Ag-doped superconductors were irradiated by neutrons. Experimental result showed that XRD patern-intensity of irradiated Bi-based sample was decreased and The Tc of these samples were decreased by 7-10 K. The neutron irradiated sample was also found to decrease by 50% the normal state resistivity of samples. Therefore, neutron irradiation is a useful method to improve the superconductivity behavior of Bi-based materials.
Najafpour,H , Sedghi,H and Khoda-bakhsh,R . (2019). Low-energy neutron irradiation on Bi-based (2223) Ag superconductors. Iranian Journal of Physics Research, 9(1), 59-63.
MLA
Najafpour,H , , Sedghi,H , and Khoda-bakhsh,R . "Low-energy neutron irradiation on Bi-based (2223) Ag superconductors", Iranian Journal of Physics Research, 9, 1, 2019, 59-63.
HARVARD
Najafpour H, Sedghi H, Khoda-bakhsh R. (2019). 'Low-energy neutron irradiation on Bi-based (2223) Ag superconductors', Iranian Journal of Physics Research, 9(1), pp. 59-63.
CHICAGO
H Najafpour, H Sedghi and R Khoda-bakhsh, "Low-energy neutron irradiation on Bi-based (2223) Ag superconductors," Iranian Journal of Physics Research, 9 1 (2019): 59-63,
VANCOUVER
Najafpour H, Sedghi H, Khoda-bakhsh R. Low-energy neutron irradiation on Bi-based (2223) Ag superconductors. Iranian Journal of Physics Research. 2019;9(1):59-63 (In Persian).