Symmetric and antisymmetric exchange anisotropies in quasi-one-dimensional CuSe2O5 as revealed by ESR

Abstract

We present an electron spin resonance (ESR) study of single-crystalline spin chain-system CuSe2O5 in the frequency range between 9 GHz and 450 GHz. In a wide temperature range above the N\'eel temperature TN=17 K we observe strong and anisotropic frequency dependence of a resonance linewidth. Although sizeable interchain interaction JIC≈ 0.1 J (J is the intrachain interaction) is present in this system, the ESR results agree well with the Oshikawa-Affleck theory for one-dimensional S=1/2 Heisenberg antiferromagnet. This theory is used to extract the anisotropies present in CuSe2O5. We find that the symmetric anisotropic exchange Jc=(0.04 0.01) \:J and the antisymmetric Dzyaloshinskii-Moriya (DM) interaction D=(0.05 0.01)\:J are very similar in size in this system. Staggered-field susceptibility induced by the presence of the DM interaction is witnessed in the macroscopic susceptibility anisotropy.