Crystal structure, magnetic and resonant properties of decorated spin kagome system (CsCl)Cu5As2O10
Abstract
We report the synthesis and investigation of the crystal structure and physical properties of the averievite-like arsenate, (CsCl)Cu5As2O10. Just above room temperature, this compound undergoes a structural phase transition from the high-temperature trigonal P3m1 (a=b=a0 and c=c0) to the low-temperature monoclinic I2/a phase (a ≈ 3a0, b=a0, c ≈ 2c0 and β ≈ 90.6). According to thermodynamic and nuclear magnetic resonance measurements, it experiences a phase transition into a canted antiferromagnetic state at TN = 21~K. The density functional theory calculations place the energy scale of kagome exchange interaction parameter in (CsCl)Cu5As2O10 in between those in V- and P-analogs.
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