Superconducting Precursors in Bi/Pb Multiphase Cuprates Fabricated by the Solar Technology and their Comparative Study by Torque Magnetometry Methods

Authors

  • Grigor Ivan Mamniashvili Condensed Matter Physics Department, Andronikashvili Institute of Physics at TSU, Georgia
  • Giorgi Donadze Condensed Matter Physics Department, Andronikashvili Institute of Physics at TSU, Georgia
  • Valery Tavkhelidze Condensed Matter Physics Department, Andronikashvili Institute of Physics at TSU, Georgia
  • Dilbar Gulamova Institute of Materials Science, SPA Physics-Sun of Academy of Science, Uzbekistan
Volume: 13 | Issue: 6 | Pages: 12390-12395 | December 2023 | https://doi.org/10.48084/etasr.6487

Abstract

A special method has been applied to synthesize HTSC samples of Bi1.7Pb0.3Sr2Ca(n-1)CunOy with increased local inhomogeneities, using solar energy for the melting and following superfast quenching of the melt (SFAQ-T technology). This study carried out a comparative analysis using low-frequency torsional vibration and resonant vibrating reed spectroscopy methods. The results showed a possibility for the existence of high-temperature superconducting precursors with Tc = 107-138 K and the potential advantages of the application of the resonant vibrating reed method.

Keywords:

solar radiation, solar technology, high-temperature superconducting (HTSC) ceramics, nominals Bi1.7Pb0.3Sr2Ca(n-1)CunOy, torque magnetometry

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[1]
G. I. Mamniashvili, G. Donadze, V. Tavkhelidze, and D. Gulamova, “Superconducting Precursors in Bi/Pb Multiphase Cuprates Fabricated by the Solar Technology and their Comparative Study by Torque Magnetometry Methods”, Eng. Technol. Appl. Sci. Res., vol. 13, no. 6, pp. 12390–12395, Dec. 2023.

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