Using finite-temperature determinantal quantum Monte Carlo calculations, we
re-examine the pairing susceptibilities in the Hubbard model on the honeycomb
lattice, focusing on doping levels onto and away from the van Hove singularity
(VHS) filling. For this purpose, electronic densities of 0.75 (at the
hole-doping VHS) and 0.4 (well below the VHS) are considered in detail, where
due to a severe sign problem at strong coupling strengths, we focus on the weak
interaction region of the Hubbard model Hamiltonian. From analyzing the
temperature dependence of pairing susceptibilities in various symmetry
channels, we find the singlet d+id-wave to be the dominant pairing channel
both at and away from the VHS filling. We furthermore investigate the
electronic susceptibility to a specific chiral spin density wave (SDW) order,
which we find to be similarly relevant at the VHS, while it extenuates upon
doping away from the VHS filling.Comment: 8 pages, 14 figures. Accepted by PRB. Two figures added, more lattice
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