The Universal Gap-to-Critical Temperature Ratio in Superconductors: a Statistical Mechanical Perspective
Abstract
We propose a statistical mechanical framework to unify the observed relationship between the superconducting energy gap , the pseudogap , and the critical temperature Tc. In this model, fermions couple as a composite boson and condense to occupy a single bound state as the temperature drops. We derive a concise formula for Tc in terms of and , namely: kB Tc = 1.4+4(/). This expression reproduces the standard BCS gap-to-Tc ratio in the absence of a pseudogap, while naturally explaining its enhancement in unconventional superconductors. The model is supported by comparisons with experimental data from several cuprates and iron-based superconductors, which highlight its generality. This formulation also offers a theoretical explanation for the observed persistence of the pseudogap phase into the overdoped regime.
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