Properties of an organic model S=1 Haldane chain system

Abstract

We present the properties of a new organic S=1 antiferromagnetic chain system m-NO2PhBNO (abbreviated BoNO). In this biradical system two unpaired electrons from aminoxyl groups are strongly ferromagnetically coupled (|JFM| /kB 500 K) which leads to the formation of an effective S=1 state for each molecule. The chains of BoNO biradicals propagate along the crystallographic a axis. Temperature dependence of the g factor and electron paramagnetic resonance (EPR) linewidth are consistent with a low-dimensional system with antiferromagnetic interactions. The EPR data further suggest that BoNO is the first known Haldane system with an almost isotropic g factor (2.0023 2 x2030). The magnetization measurements in magnetic fields up to 40 T and low-field susceptibility, together with 1H nuclear magnetic resonance (NMR) spectra, reveal a dominant intrachain antiferromagnetic exchange coupling of J1D/kB = (11.30.1) K, and attainable critical magnetic fields of μ0 Hc1 ≈ 2 T and μ0 Hc2 ≈ 33 T. These measurements therefore suggest that BoNO is a unique Haldane system with extremely small magnetic anisotropy. Present results are crucial for a future in-depth NMR study of the low-temperature Tomonaga-Luttinger liquid (TLL) and magnetic field-induced phases, which can be performed in the entire phase space.

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