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Main Authors: Wu, Jiu Hui, Niu, Jiamin, Zhou, Kejiang
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2507.09869
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author Wu, Jiu Hui
Niu, Jiamin
Zhou, Kejiang
author_facet Wu, Jiu Hui
Niu, Jiamin
Zhou, Kejiang
contents Based on the general thermodynamic analysis of Polanyi adsorption potential, the adsorption potential condition for superconductors is obtained exactly by using the quantum state equation we presented. Because this adsorption potential results in changes of electron concentration, temperature and pressure in a certain volume (adsorption space) adjacent to the surface of the lattice, the composition and structure of superconductors are of course decisive for the adsorption potential. Then we calculate the molar adsorption potentials for those typical superconductors, and find that it is positively correlated to the superconductivity temperature , which reveals that those high-superconductors are mainly determined by the higher molar adsorption potentials. In addition, the adsorption potential at still works despite the disappearance of the energy gap of the BCS theory. This shows that beyond the electron-phonon interaction mechanism, the Cooper-paired electrons are mainly formed by this physical adsorption potential for high-superconductors. This adsorption potential theory could explain almost all common facts about high-temperature superconductors, including many anomalies of the normal and superconducting states.
format Preprint
id arxiv_https___arxiv_org_abs_2507_09869
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Thermodynamic adsorption potential of superconductors
Wu, Jiu Hui
Niu, Jiamin
Zhou, Kejiang
Superconductivity
Quantum Physics
Based on the general thermodynamic analysis of Polanyi adsorption potential, the adsorption potential condition for superconductors is obtained exactly by using the quantum state equation we presented. Because this adsorption potential results in changes of electron concentration, temperature and pressure in a certain volume (adsorption space) adjacent to the surface of the lattice, the composition and structure of superconductors are of course decisive for the adsorption potential. Then we calculate the molar adsorption potentials for those typical superconductors, and find that it is positively correlated to the superconductivity temperature , which reveals that those high-superconductors are mainly determined by the higher molar adsorption potentials. In addition, the adsorption potential at still works despite the disappearance of the energy gap of the BCS theory. This shows that beyond the electron-phonon interaction mechanism, the Cooper-paired electrons are mainly formed by this physical adsorption potential for high-superconductors. This adsorption potential theory could explain almost all common facts about high-temperature superconductors, including many anomalies of the normal and superconducting states.
title Thermodynamic adsorption potential of superconductors
topic Superconductivity
Quantum Physics
url https://arxiv.org/abs/2507.09869