Ankit Kumar scite author profile

The chemical pressure effect on the structural, transport, magnetic and electronic properties (by measuring X-ray photoemission spectroscopy) of ZnV 2 O 4 has been investigated by doping Mn and Co on the Zinc site of ZnV 2 O 4 . With Mn doping the V-V distance increases and with Co doping it decreases. The resistivity and thermoelectric power data indicate that as the V-V distance decreases the system moves towards Quantum Phase Transition. The transport data also indicate that the conduction is due to the small polaron hopping. The chemical pressure shows the non-monotonous behaviour of charge gap and activation energy.The XPS study also supports the observation that with decrease of the V-V separation the system moves towards Quantum Phase Transition. On the other hand when Ti is doped on the V-site of ZnV 2 O 4 the metal-metal distance decreases and at the same time the T N also increases.

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Signatures of magnetostriction and spin-phonon coupling in magnetoelectric hexagonal15R−BaMnO3

Poojitha

Rathore

Kumar

et al. 2020

Phys. Rev. B

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Spin-phonon coupling, the interaction of spins with surrounding lattice is a key parameter to understand the underlying physics of multiferroics and engineer their magnetization dynamics. Elementary excitations in multiferroic materials are strongly influenced by spin-phonon interaction, making Raman spectroscopy a unique tool to probe these coupling(s). Recently, it has been suggested that the dielectric and magnetic properties of 15R-type hexagonal BaMnO3 are correlated through the spin-lattice coupling. Here, we report the observation of an extensive renormalization of the Raman spectrum of 15R-BaMnO3 at 230 K, 280 K, and 330 K. Magnetic measurements reveal the presence of a long-range and a short-range magnetic ordering in 15R-BaMnO3 at 230 K and 330 K, respectively. The Raman spectrum shows the appearance of new Raman modes in the magnetically ordered phases. Furthermore, an additional Raman phonon appears below ~ 280 K, possibly arising from a local latticedistortion due to the displacement of Mn-ions, that exhibits anomalous shift with temperature. The origin of the observed renormalization and phonon anomalies in Raman spectra are discussed based on the evidences from temperature-and magnetic-field-dependent Raman spectra, temperature-dependent x-ray diffraction, magnetization, and specific heat measurements. Our results indicate the presence of magnetostriction and spin-phonon coupling in 15R-BaMnO3 thus suggesting that the optical phonons are strongly correlated to its magnetoelectric properties.

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Enhancing thermoelectric properties in TiNiSi structure-type semimetal ZrNiSi by doping

Kumar

Ghosh

et al. 2022

Phys. Rev. Materials

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Electron–phonon coupling in APd₃O₄: A = Ca, Sr, and Sr_0.85Li_0.15

Poojitha¹,

Reddy²,

Joshi³

et al. 2020

J. Phys.: Condens. Matter

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Here we have investigated the role of electron phonon coupling on the Raman spectrum of narrow bandgap semiconductors APd3O4 (A = Ca, Sr) and hole-doped system Sr0.85Li0.15Pd3O4. Four Raman active phonons are observed at room temperature for all three compounds as predicted by factor group analysis. The lowest energy phonon (∼190/202 cm−1) associated with Pd vibrations is observed to exhibit an asymmetric Fano-like lineshape in all the three compounds, indicating the presence of an interaction between the phonon and the electronic continuum. The origin of the electronic continuum states and electron–phonon coupling are discussed based on our laser power- and temperature-dependent Raman results. We have observed an enhanced strength of electron–phonon coupling in Sr0.85Li0.15Pd3O4 at low temperatures which can be attributed to the metallicity in this doped compound.

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Structural and magnetic properties of transition metal doped BaTiO3

Kumar¹,

Poojitha²,

Rathore³

et al. 2020

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Ankit Kumar

Effect of Chemical Pressure at the Boundary of Mott Insulator to Itinerant Electron Limit Transition in Spinel Vanadates

Signatures of magnetostriction and spin-phonon coupling in magnetoelectric hexagonal15R−BaMnO3

Enhancing thermoelectric properties in TiNiSi structure-type semimetal ZrNiSi by doping

Electron–phonon coupling in APd₃O₄: A = Ca, Sr, and Sr_0.85Li_0.15

Structural and magnetic properties of transition metal doped BaTiO3

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Ankit Kumar

Effect of Chemical Pressure at the Boundary of Mott Insulator to Itinerant Electron Limit Transition in Spinel Vanadates

Signatures of magnetostriction and spin-phonon coupling in magnetoelectric hexagonal15R−BaMnO3

Enhancing thermoelectric properties in TiNiSi structure-type semimetal ZrNiSi by doping

Electron–phonon coupling in APd3O4: A = Ca, Sr, and Sr0.85Li0.15

Structural and magnetic properties of transition metal doped BaTiO3

Contact Info

Product

Resources

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Electron–phonon coupling in APd₃O₄: A = Ca, Sr, and Sr_0.85Li_0.15