Superconductors Molecular Effect Model Fundamentals and Review of Isotope Effect with 3D Graphical- Mathematical Interior Optimization

Abstract

At previous Conference Proceedings, a contribution with computational advances and the review of superconductors (SC) Isotope Effect and Molecular Effect Model (MEM) were presented. That comprised Type I and Type II superconductors materials, both classical and modern ones. 2D/3D Interior Optimization is applied here for further sharper results with numerical dataset in Type II high- temperature superconductors (HTSC). Future challenges in superconducting lines are explained as an author’s proposal, and compared to literature ones. Improved-software results confirm the previous results obtained. A compilation and extension, both in mathematical methods and new results in 3D Graphical and Interior Optimization from the Proceedings presentation is shown and proven. Additionally, a number of previous publications results in this field are included. Applications in Electronics Physics Superconductors modelling are briefed.