UNDERSTANDING THE MECHANISMS OF HIGH-TEMPERATURE SUPERCONDUCTIVITY: A THEORETICAL EXPLORATION

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Аннотация:

This article builds upon the conductivity equation derived from Eyring's rate process theory and the free volume concept to examine high temperature superconductivity. The research reveals that high temperature superconductivity occurs when electrons possess a fractional coordination number, as opposed to low temperature superconductivity where electron pairing structures are typically observed. As the fractional coordination numbers of electrons decrease, the transition temperatures for superconductivity shift towards higher temperature ranges. For achieving room temperature superconductivity, electrons must have an extremely low fractional coordination number, such as 1/64, aligning with the theory of highly localized vortex core bound state. It is noteworthy that all materials have the potential to become superconductors at sufficiently low temperatures, regardless of whether their conductivity initially increases or decreases with decreasing temperature. These findings contribute to our understanding of high temperature superconductivity mechanisms and offer insights for the design of materials with enhanced superconducting properties.

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Как цитировать:

Rafikov , E. . (2023). UNDERSTANDING THE MECHANISMS OF HIGH-TEMPERATURE SUPERCONDUCTIVITY: A THEORETICAL EXPLORATION. Универсальная индексная библиотека Евразийского журнала технологий и инноваций, 1(10), 202–206. извлечено от https://lib.uniconflix.com/index.php/uilejti/article/view/22378

Библиографические ссылки:

High-temperature superconductivity - Wikipedia https://en.m.wikipedia.org/wiki/High-temperature_superconductivity

High-Temperature Superconductivity - De Gruyter https://www.degruyter.com/document/doi/10.1515/9783110786668/html

Mechanism of High-Temperature Superconductivity in Correlated ... https://arxiv.org/abs/1907.02313

High-Temperature Superconductivity Understood at Last https://www.quantamagazine.org/high-temperature-superconductivity-understood-at-last-20220921/