Gapped commensurate antiferromagnetic response in a strongly underdoped model cuprate superconductor
Abstract
It is a distinct possibility that spin fluctuations are the pairing interactions in a wide range of unconventional superconductors. In the case of the high-transition-temperature (high-Tc) cuprates, in which superconductivity emerges upon doping an antiferromagnetic Mott-insulating state, spin correlations might furthermore drive unusual pseudogap phenomena. Here we use polarized and unpolarized magnetic neutron scattering to study the simple tetragonal cuprate HgBa2CuO4+δ at very low doping (Tc ≈ 55 K, hole concentration p ≈ 0.064). In stark contrast to prior results for other underdoped cuprates, we find no evidence of incommensurate spin-density-wave, charge-spin stripe, or q = 0 magnetic order. Instead, the antiferromagnetic response in both the superconducting and pseudogap states is gapped below AF ≈ 6 meV, commensurate over a wide energy range, and disperses above about 55 meV. Given the documented model nature of HgBa2CuO4+δ, which exhibits high structural symmetry and minimal point disorder effects, we conclude that the observed behavior signifies the unmasked response of the quintessential CuO2 planes near the Mott-insulating state. These results for HgBa2CuO4+δ can therefore be expected to serve as a benchmark for a refined theoretical understanding of the cuprates.
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