Experimental study of multiple magnetic transitions in micrometer and nano-grain sized Ni3TeO6-type oxide

We report the experimental results of dc and ac magnetic susceptibility (χdc and χac) and specific heat (CP) measurements of the powdered Ni3TeO6-type oxide. Upon decreasing the grain size from micrometer (bulk) to nanometer range, the magnetic measurements have indicated multiple transitions, viz.,...

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Bibliographic Details
Published in:Journal of applied physics 2020-09, Vol.128 (12)
Main Authors: Panneer Muthuselvam, I., Saranya, K., Sankar, R., Bhowmik, R. N., Kavitha, L.
Format: Article
Language:English
Subjects:
Antiferromagnetism
Applied physics
Ferrimagnetism
Grain size
Magnetic fields
Magnetic measurement
Magnetic permeability
Magnetic transitions
Magnetism
Spin glasses
Temperature
Transition temperature
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Summary:We report the experimental results of dc and ac magnetic susceptibility (χdc and χac) and specific heat (CP) measurements of the powdered Ni3TeO6-type oxide. Upon decreasing the grain size from micrometer (bulk) to nanometer range, the magnetic measurements have indicated multiple transitions, viz., a cusp at paramagnetic to ferrimagnetic (FIM) transition temperature (TC) ∼ 78 K, an antiferromagnetic (AFM) transition temperature (TN) ∼ 52 K, and a re-entrant spin glass (RSG) transition at Tm2 ∼ 7.49 K. The ferrimagnetic transition temperature TC is found to be highly sensitive to dc magnetic fields, where superposition of a small dc field (10 Oe) in the ac susceptibility measurement or the application of a dc magnetic field of up to 100 Oe in the dc magnetic measurement is enough to suppress the observed TC at 78 K. The CP(T) measurement also revealed a RSG state at lower temperatures for the sample with nano-sized grains. The absence of any sharp peak at TC in the CP(T) curves implies the absence of a true long-range FIM spin order in the samples. The coexistence of a RSG state with multiple magnetic transitions is understood as an effect of competitive AFM and FIM phases in the Ni3TeO6-type structure.
ISSN:0021-8979
1089-7550
DOI:10.1063/5.0020807