Spatially limited antiferromagnetic order in a cluster glass compound Tb2Ni0.90Si2.94

In the present study, the synthesis of a new ternary intermetallic compound Tb2Ni0.90Si2.94 has been reported. The detailed studies on structure, static and dynamical magnetic properties of the compound have been investigated by means of powder x-ray diffraction, compositional analysis, dc & ac...

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Veröffentlicht in:	Journal of alloys and compounds 2019-05, Vol.785 (C), p.72-79
Hauptverfasser:	Pakhira, Santanu, Mazumdar, Chandan, Avdeev, Maxim, Bhowmik, R.N., Ranganathan, R.
Format:	Artikel
Sprache:	eng
Schlagworte:	Antiferromagnetism Clusters Divergence Freezing Glass Intermetallic Intermetallic compounds Magnetic induction Magnetic permeability Magnetic properties Magnetic relaxation Magnetization MATERIALS SCIENCE Metal ions Neutron diffraction Neutrons Rare earth elements Scaling laws Specific heat Spin glass Temperature dependence X ray powder diffraction X-ray diffraction
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creator	Pakhira, Santanu Mazumdar, Chandan Avdeev, Maxim Bhowmik, R.N. Ranganathan, R.
description	In the present study, the synthesis of a new ternary intermetallic compound Tb2Ni0.90Si2.94 has been reported. The detailed studies on structure, static and dynamical magnetic properties of the compound have been investigated by means of powder x-ray diffraction, compositional analysis, dc & ac magnetization, non-equilibrium dynamics, heat capacity and neutron diffraction measurements. The dc & ac magnetic susceptibility reveal that the compound undergoes spin cluster-glass behaviour below 9.9 K. The frequency dependence of the freezing temperature have been analysed on the basis of dynamic scaling laws such as power-law divergence and Vogel-Fulcher law, which further confirm the cluster-glass state formation for the compound. A detailed study on non-equilibrium dynamical behaviour associated with cluster-glass state has been carried out through magnetic relaxation behaviour along with magnetic memory effect in zero-field-cooled (ZFC) as well as field-cooled (FC) conditions and associated aging effect. The zero-field neutron diffraction study reveals the presence of a spatially limited antiferromagnetic phase in addition to the magnetically frustrated cluster-glass state. This result has also been supported through zero-field heat capacity studies. The variation in local electronic environment among the magnetic rare-earth ions caused by the structural disorder associated with Ni/Si ions have been argued to be responsible for the coexistence of different magnetic phases. •Synthesis of a new intermetallic compound Tb2Ni0.90Si2.94 in defect structure.•The compound exhibits magnetically frustrated cluster glass behaviour below 9.9 K.•Magnetic memory effect is observed that favours the hierarchical model.•Neutron diffraction reveals coexisting spatially limited antiferromagnetic order.
doi_str_mv	10.1016/j.jallcom.2019.01.123
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subjects	Antiferromagnetism Clusters Divergence Freezing Glass Intermetallic Intermetallic compounds Magnetic induction Magnetic permeability Magnetic properties Magnetic relaxation Magnetization MATERIALS SCIENCE Metal ions Neutron diffraction Neutrons Rare earth elements Scaling laws Specific heat Spin glass Temperature dependence X ray powder diffraction X-ray diffraction
title	Spatially limited antiferromagnetic order in a cluster glass compound Tb2Ni0.90Si2.94
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