Abstract
Abstract The coherence length (ξ) corresponds to the distance to which a cooper pair spreads, or to the necessary distance for a superconducting wave to develop. In this research, temperature-dependent coherence length was studied in the critical temperature scenery by type 1.5 superconductor model. The analytical form of the coherence length was investigated by four temperature-dependent assumptions; Chen’s assumption, Zhu’s assumption, Shanenko’s assumption and Changjan & Udomsamuthirun’s assumption. Comparisons of obtained results with single-band and two-band Ginzburg-Landau theory were presented.
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