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We provide a mathematical description, based on d-wave Eliashberg theory, of the strong correlation between the experimentally observed softening of Raman modes associated with in-plane oxygen motions and the corresponding superconducting critical temperature Tc, as a function of oxygen doping x, in YBa2Cu3Ox. The theoretical model provides a direct link between physical trends of soft optical Ag (in-plane) oxygen modes, the level of oxygen doping x, and the superconducting Tc. Different regimes observed in the trend of Tc vs doping can be related to corresponding regimes of optical phonon softening in the Raman spectra. These results provide further evidence related to the physical origin of high-temperature superconductivity in rare-earth cuprate oxides and to the significant role of electron–phonon coupling therein.

Correlation between optical phonon softening and superconducting in YBa 2 Cu 3 O x within d-wave Eliashberg theory / C. Jiang, G. Alberto Ummarino, M. Baggioli, E. Liarokapis, A. Zaccone. - In: JPHYS MATERIALS. - ISSN 2515-7639. - 7:4(2024 Oct), pp. 045002.1-045002.12. [10.1088/2515-7639/ad6c7f]

Correlation between optical phonon softening and superconducting in YBa 2 Cu 3 O x within d-wave Eliashberg theory

A. Zaccone
Ultimo
2024

Abstract

We provide a mathematical description, based on d-wave Eliashberg theory, of the strong correlation between the experimentally observed softening of Raman modes associated with in-plane oxygen motions and the corresponding superconducting critical temperature Tc, as a function of oxygen doping x, in YBa2Cu3Ox. The theoretical model provides a direct link between physical trends of soft optical Ag (in-plane) oxygen modes, the level of oxygen doping x, and the superconducting Tc. Different regimes observed in the trend of Tc vs doping can be related to corresponding regimes of optical phonon softening in the Raman spectra. These results provide further evidence related to the physical origin of high-temperature superconductivity in rare-earth cuprate oxides and to the significant role of electron–phonon coupling therein.
charge density waves; cuprates; high-T superconductivity; oxygen doping; phonon softening; Raman spectroscopy; superconductors
Settore FIS/03 - Fisica della Materia
Settore FIS/02 - Fisica Teorica, Modelli e Metodi Matematici
Settore PHYS-03/A - Fisica sperimentale della materia e applicazioni
Settore PHYS-02/A - Fisica teorica delle interazioni fondamentali, modelli, metodi matematici e applicazioni
   Solving the multi-scale problem in materials mechanics: a pathway to chemical design (Multimech)
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   EUROPEAN COMMISSION
   101043968
ott-2024
14-ago-2024
JPHYS MATERIALS
Article (author)
01 - Articolo su periodico
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/1093168
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