Itinerant A-type Antiferromagnetic Order in Co0.25TaSe2

Abstract

We present the magnetic behavior and resulting transport properties of TaSe2 when intercalated by magnetically active cobalt cations. Acting as the layered host, TaSe2 is a transition metal dichalcogenide (TMD) that adopts the 2H-polytype. We find through our single crystal and powder diffraction studies that we can prepare the stoichiometry Co0.25TaSe2, which crystallizes in the centrosymmetric space group P63/mmc. From magnetic susceptibility and x-ray photoelectron spectroscopy measurements, we find a transition consistent with antiferromagnetic order below the temperature TN = 173 K and Co2+ in the high-spin state. Neutron powder diffraction and specific heat measurements, however, point to a much smaller than anticipated ordered moment in this sample. From the neutron results, the magnetic structure can be described as an A-type antiferromagnet with an ordered moment size of 1.35(11) μB per Co cation. The direction of the moments are all long the c-axis, which is consistent with the magnetization and susceptibility studies showing this direction to be the easy axis. Interestingly, we find that a weak and subtle ferromagnetic component appears to exist along the ab-plane of the Co0.25TaSe2 crystals. We place the results of this work in the context of other magnetic-ion intercalated TMDs, especially those of Ta and Nb.