摘要： In the framework of the weak coupling theory of superconductivity, we have proved that spin and charge fluctuations in the high-T_c superconductors can pro-duce respectively, pair-breaking and pair-forming effects on the superconductivity resulting from the "generalized BCS mechanism". With the coupling constant for spin fluctuations larger than that for charge fluctuations, they combine to produce a temperature-dependent effective pair-breaking effect, which makes T_c decrease more rapidly than Δ(0), the superconducting gap at T=0, and therefore, enhances the ratio 2Δ(0)/T_c. This provides a reasonable physical interpretation for the relevant experimental results.

Abstract: In the framework of the weak coupling theory of superconductivity, we have proved that spin and charge fluctuations in the high-T_c superconductors can pro-duce respectively, pair-breaking and pair-forming effects on the superconductivity resulting from the "generalized BCS mechanism". With the coupling constant for spin fluctuations larger than that for charge fluctuations, they combine to produce a temperature-dependent effective pair-breaking effect, which makes T_c decrease more rapidly than $\Delta$(0), the superconducting gap at T=0, and therefore, enhances the ratio 2$\Delta$(0)/T_c. This provides a reasonable physical interpretation for the relevant experimental results.

中图分类号: 

• 74.40.+k

74.20.Fg (BCS theory and its development) 74.25.Jb (Electronic structure (photoemission, etc.)) 74.20.Mn (Nonconventional mechanisms) 74.72.-h (Cuprate superconductors) 74.62.Yb (Other effects)