Low-energy antiferromagnetic spin fluctuations limit the coherent superconducting gap in cuprates

Abstract

Motivated by recent attention to a potential antiferromagnetic quantum critical point at xc 0.19, we have used inelastic neutron scattering to investigate the low-energy spin excitations in crystals of La2-xSrxCuO4 bracketing xc. We observe a peak in the normal-state spin-fluctuation weight at 20~meV for both x=0.21 and 0.17, inconsistent with quantum critical behavior. The presence of the peak raises the question of whether low-energy spin fluctuations limit the onset of superconducting order. Empirically evaluating the spin gap spin in the superconducting state, we find that spin is equal to the coherent superconducting gap c determined by electronic spectroscopies. To test whether this is a general result for other cuprate families, we have checked through the literature and find that c spin for cuprates with uniform d-wave superconductivity. We discuss the implications of this result.