TITLE:
The Superconductivity in Fe-Based Family of Superconductors and Its Electronic Structure Analysis in Presence of Dopants Rh and Pd
AUTHORS:
Ronald Columbié-Leyva, Alberto López-Vivas, Ulises Miranda, Ilya G. Kaplan
KEYWORDS:
Iron-Based High-Tc Superconductors, Superconductivity, Embeded Cluster Method, Natural Bonding Orbitals Analysis
JOURNAL NAME:
Journal of Quantum Information Science,
Vol.12 No.4,
December
29,
2022
ABSTRACT: The discovered in 2008 Fe-based superconductors (SC) are a paramagnetic semimetal at ambient temperature and in some cases they become superconductor upon doping. In spite of so many years since its discovery it is still not known the mechanism that leads to superconductivity. The electronic structure study is used for determining key features of the SC mechanism in these materials. The calculations were performed using the modern suite of programs MOLPRO 2021. We performed quantum calculations of a cluster embedded in a background charge distribution that represents the infinite crystal. The Natural Population Analysis was used for determining the charge and spin distribution in the studied materials. As follows from our results, the possible mechanism for superconductivity corresponds to the RVB theory proposed by Anderson for high Tc superconductivity in cuprates.