This study analyzes the temperature effects on the calculation of the functional derivative of the superconducting transition temperature Tc with respect to the electron-phonon coupling function alpha F-2(omega) and the mu* parameter. By identifying the frequency regions where phonons are most effective in raising Tc, it provides insights into the physical conditions and theoretical estimation of Tc in the superconducting state.
The functional derivative of the superconducting transition temperature T-c with respect to the electron-phonon coupling function alpha F-2(omega)THORN; delta T-c(2)/delta alpha F-2(omega) permits identifying the frequency regions where phonons are most effective in raising T-c. This work presents an analysis of temperature effects on the calculation of the delta T-c(2)/delta alpha F-2(omega) and mu* parameters. The results may permit establishing that the variation of the temperature in the delta T-c(2)/delta alpha F-2(omega) and mu* parameter allows establishing patterns and conditions that are possibly related to the physical conditions in the superconducting state, with implications on the theoretical estimation of the T-c.
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