![]() The concepts of uncertainty principle, Pauli-limit, spin flip mechanism, electrostatic interaction, thermal perturbation and co-rotating of electrons are considered in the model. We propose a novel Monte Carlo algorithm for determining ξ0 of the multi-Cooper pair system in the 1D limit. In order to obtain ξ0 over the Langer–Ambegaokar–McCumber–Halperin (LAMH) theory, extensive experimental fitting parameters have been required over the last 40 years. The transverse coupling between the superconducting nanowires is determined by the size-dependent coherence length ξ0. Such materials have been realized in the linear pores of mesoporous substrates or exist intrinsically in the form of various quasi-1D crystalline materials. Nanostructuring of superconducting materials to form dense arrays of thin parallel nanowires with significantly large transverse Josephson coupling has proven to be an effective way to increase the upper critical field of superconducting elements by as much as two orders of magnitude as compared to the corresponding bulk materials and, in addition, may cause considerable enhancements in their critical temperatures. Physica C: Superconductivity and its Applications, v. Please use this identifier to cite or link to this item: Electron–electron interactions of the multi-Cooper-pairs in the 1D limit and their role in the formation of global phase coherence in quasi-one-dimensional superconducting nanowire arrays Bibliographic Details Author
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