Sensitivity of the Superconducting Transition Temperature to Changes in the Spin-Fluctuation Spectral Weight
Abstract
In the simplest model of magnetic pairing, the transition temperature to the superconducting state depends on the dynamical susceptibility ( q,ω). We discuss how Tc is affected by different momentum and frequency parts of ( q,ω) for nearly antiferromagnetic and nearly ferromagnetic metals in two dimensions. While in the case of phonon-mediated superconductivity any addition of spectral weight to α2F(ω) at ω >0 leads to an increase in Tc, we find that adding magnetic spectral weight at any momentum q and low frequencies ([0:3Tc] and [0:(5-9)Tc] for nearly antiferromagnetic and ferromagnetic metals respectively) leads to a suppression of Tc. The most effective frequency and momentum range consists of large momenta q (π,π) and frequencies around 10Tc for nearly antiferromagnetic metals and small momenta q 0 and frequencies of approximately (13-22)Tc for nearly ferromagnetic metals.
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