J. Saha scite author profile

We report multiferroic behavior in double perovskite Y 2 CoMnO 6 with ferroelectric transition temperature T c = 80K. The origin of ferroelectricity is associated with magnetic ordering of Co 2+ and Mn 4+ moments in a ↑↑-↓↓ arrangement. The saturation polarization and magnetization are estimated to be 65 µC/m 2 and 6.2 µ B /f.u. respectively. The magnetoelectric coupling parameter, on the other hand, is small as a 5 Tesla field suppresses the electric polarization by only ~8%. This is corroborated with observed hysteretic behaviour at 5K that remains unsaturated even upto 7 Tesla. A model based on exchange-striction is proposed to explain the observed high temperature ferroelectricity. a) spatnaik@mail.jnu.ac.in

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Short range ferromagnetic, magneto-electric, and magneto-dielectric effect in ceramic Co3TeO6

Singh

Ghosh

Rao

et al. 2016

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We report observation of magneto-electric and magneto-dielectric couplings along with short range ferromagnetic order in ceramic Cobalt Tellurate (Co3TeO6, CTO) using magnetic, structural, dielectric, pyroelectric, and polarization studies. DC magnetization along with dielectric constant measurements indicate a coupling between magnetic order and electrical polarization. A strong anomaly in the dielectric constant at ∼17.4 K in zero magnetic field indicates spontaneous electric polarization, consistent with a recent neutron diffraction study. Observation of weak short range ferromagnetic order at lower temperatures is attributed to the Griffiths-like ferromagnetism. Furthermore, magnetic field dependence of the ferroelectric transition follows earlier theoretical predictions, applicable to single crystal CTO. Finally, combined dielectric, pyroelectric, and polarization measurements suggest that the ground state of CTO may possess spontaneous symmetry breaking in the absence of magnetic field.

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Dynamic schedule execution in an agent based holonic manufacturing system

Jana

Bairagi

Paul

et al. 2013

Journal of Manufacturing Systems

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Evidence for multiferroic characteristics in NdCrTiO 5

Saha

Sharma

Patnaik

2014

Journal of Magnetism and Magnetic Materials

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Abstract:We report NdCrTiO 5 to be an unusual multiferroic material with large magnetic field dependent electric polarization. While magneto-electric coupling in this two magnetic sublattice oxide is well established, the purpose of this study is to look for spontaneous symmetry breaking at the magnetic transition. The conclusions are based on extensive magnetization, dielectric and polarization measurements around its antiferromagnetic ordering temperature of 18K. Room temperature X-ray diffraction pattern of NdCrTiO 5 reveals that the sample is single phase with an orthorhombic crystal structure that allows linear magneto-electric coupling. DC magnetization measurement shows magnetization downturn at 11K together with a small kink corresponding to the Co +3 sub-lattice ordering at~18K. An anomaly in dielectric constant is observed around the magnetic ordering temperature that increases substantially with increasing magnetic field. Through detailed pyroelectric current measurements at zero magnetic field, particularly as a function of thermal cycling, we establish that NdCrTiO 5 is a genuine multiferroic material that is possibly driven by collinear magneto-striction.Introduction:

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J. Saha

Appearance of superconductivity in layered LaO0.5F0.5BiS2

Magnetism driven ferroelectricity above liquid nitrogen temperature in Y2CoMnO6

Short range ferromagnetic, magneto-electric, and magneto-dielectric effect in ceramic Co3TeO6

Dynamic schedule execution in an agent based holonic manufacturing system

Evidence for multiferroic characteristics in NdCrTiO 5

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