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MM: Fachverband Metall- und Materialphysik

MM 6: Phase Transformations

MM 6.3: Vortrag

Montag, 17. März 2025, 16:15–16:30, H10

Magnetic-field induced phase transition crossover in the triangular-lattice antiferromagnet: Ba₃CoSbO₉ — •Sanjay Kumar¹, Koushik Chakraborty², Aditi Agrawal², Shalini Mishra³, M. P. Saravanan², Arvind Kumar Yogi², Satyapal S. Rathore⁴, and Rashi Nathawat¹ — ¹Functional Ceramics and Smart Materials Lab, Department of Physics, Manipal University Jaipur, Jaipur - 303007, India — ²UGC-DAE Consortium for Scientific Research, University Campus, Khandwa Road, Indore-452001, India — ³Department of Physics, Govt. Holkar Science College, Indore (M.P.) 452001, India — ⁴Department of Physics, Cluster University of Jammu, Jammu * 180001, India

We report magnetic and structural properties of triangular-lattice antiferromagnet Ba₃CoSbO₉ by means of x-ray diffraction (XRD), magnetic susceptibility, specific heat, x-ray photoelectron spectroscopy (XPS), and dielectric measurements. Thermodynamic measurements show a long-range ordered (LRO) state at Néel temperature T_N = 3 K which was found to be shift at higher temperatures at about T_N = 4.1 K under the higher magnetic fields. Moreover, we have found higher Curie-Weiss temperature θ_CW ∼-133.2 K from the inverse susceptibility fit which reveals frustration parameter about  44, suggesting magnetic lattice is highly frustrated. Further, a spin-glass state signature was evident at around 6.5 K, which was found to be fully suppressed at a higher magnetic field ( H ∼16 T). Interestingly, Ba₃CoSbO₉ exhibits a broad maximum at around T_max ∼5 K which becomes pronounced as the magnetic field is increased.

Keywords: Quantum Materials; X-ray diffraction; Magnetism; Frustrated lattice