Journal
SUPERCONDUCTOR SCIENCE & TECHNOLOGY
Volume 30, Issue 2, Pages -Publisher
IOP PUBLISHING LTD
DOI: 10.1088/1361-6668/30/2/025006
Keywords
Nb3Sn; microscopic theory; superconducting properties
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Funding
- Office of Science, High Energy Physics, Basic Energy Sciences, US Department of Energy by NEMM program at LBNL [DE-AC02-05CH11231]
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The effect of disorder on the normal state resistivity and the superconducting properties of Nb3Sn is explored in a combination of ab initio calculations and microscopic theory. The crystal symmetry is calculated to be preferentially tetragonal at a normal state resistivity below 27.0. +/-. 1.4 mu Omega cm, and preferentially cubic above this value, which is shown to be consistent with the experimentally observed transition point. The phonon density of states, the Eliashberg spectrum alpha(2)(omega) F(omega), the electron-phonon coupling constant, the characteristic frequency, the critical temperature T-c, and the upper critical magnetic field at 0 K H-c2(0) are calculated over a large normal state resistivity range and shown to be consistent with experimental observations. The high degree of consistency between the calculation results and experimental observations is a strong indication that the calculation approach utilized here, a combination of ab initio calculations and microscopic theory, is a useful tool for understanding the superconducting and normal state properties of Nb-3 Sn.
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