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18 results on '"Das, Gangadhar"'

1. Magnetization, dielectric and thermal studies in the double perovskite polycrystalline compound Tm2CoMnO6

Author

Banerjee, A., Das, Gangadhar, Rajaji, V., Majumdar, S., and Chakrabarti, P. K.

Subjects
Condensed Matter - Materials Science
Abstract

We report here a comprehensive study on structural, magnetic, caloric and electronic properties of the monoclinic phase of double perovskite compound Tm2CoMnO6 (TCMO) in its polycrysttaline format. Magnetic measurements confirm the presence of thermal hysteresis in magnetization indicates towards a first order magnetic transition at its critical point (Tc). Our study finds the metamagnetic jump in isothermal M(H) at 2 K that signifies the rare earth spin allignement in loop cycling above a certain critical field. This jump is only present at very low T that dies out as the T raises. M(H) measurements at different temperature stipulate that Co2+ and Mn4+ do not order completely inspite of strong ferromagnetic correlation that is against the previous study on TCMO. The concurrence of structral, magnetic and dielectric anomaly at Tc suggest its possible magnetostructural copuling. We found a high dielectric constant (2700) in TCMO and the Maxwell-Wagner electrial loss spectrum analysis hints towards a long range hopping mechanism. Sizeable magnetocaloric effect in terms of entropy change across the transition temperatures has been obtained from heat capacity data that clearly corroborates its intrinsic behaviour.

Published
2023

2. Evidence of exchange-striction and charge disproportionation in the magneto-electric material Ni3TeO6

Author

Numan, Mohamad, Das, Gangadhar, Khan, Md Salman, Manna, Gouranga, Banerjee, Anupam, Giri, Saurav, Aquilanti, Giuliana, and Majumdar, Subham

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The chiral magneto-electric compound Ni3TeO6 is investigated through temperature-dependent synchrotron-based powder x-ray diffraction and x-ray absorption spectroscopy between 15 to 300 K. Our work provides direct evidence for the exchange-striction in the material around the concomitant onset point of collinear antiferromagnetic and magneto-electric phases. The x-ray absorption near edge spectra and x-ray photoelectron spectra show that the sample consists of both Ni2+ and Ni3+ ions in the lattice. The ionic state of Ni is found to be quite robust, and it is largely independent of the preparation route. Additionally, the minority Te4+ state is found to coexist with the majority Te6+ state, which may arise from the charge disproportionation between Ni and Te ions (Ni2+ + Te6+ --> Ni3+ + Te4+). The observed mixed valency of Ni is also confirmed by the total paramagnetic moment per Ni atom in the system. This mixed valency in the metal ions and the exchange-striction may be attributed to the observed magneto-electric effect in the system., Comment: 10 pages, 8 figures

Published
2022
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6. Reactivity of MSWI-fly ash in Mg-K-phosphate cement

Author

Bernasconi, Davide, Viani, Alberto, Zárybnická, Lucie, Mácová, Petra, Bordignon, Simone, Das, Gangadhar, Borfecchia, Elisa, Štefančič, Mateja, Caviglia, Caterina, Destefanis, Enrico, Bernasconi, Andrea, Gobetto, Roberto, and Pavese, Alessandro

Published
2023
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9. Electronic and magnetic structures of a mixed triple perovskite : Ba3NiRuIrO9

Author

Kumar, Siddharth, Kargeti, Kuldeep, Joshi, Deep C., Das, Gangadhar, Patel, Ranjan Kumar, Freeland, John W., Olivi, Luca, Aquilanti, Giuliana, Kaushik, S. D., Mathieu, Roland, Panda, S. K., Khalyavin, D. D., Middey, Srimanta, Kumar, Siddharth, Kargeti, Kuldeep, Joshi, Deep C., Das, Gangadhar, Patel, Ranjan Kumar, Freeland, John W., Olivi, Luca, Aquilanti, Giuliana, Kaushik, S. D., Mathieu, Roland, Panda, S. K., Khalyavin, D. D., and Middey, Srimanta

Abstract

In search of spin-orbit coupling driven nonmagnetic J = 0 ground state and excitonic magnetism, various pentavalent iridates have been studied in recent years. However, a finite moment was observed in most of the cases due to solid state effects. In this work, we investigate the electronic and magnetic structure of 6H hexagonal compound Ba3NiRuIrO9, where Ir5+ is present along with magnetic Ni2+ and Ru5+ ions. Magnetic susceptibility measurements and neutron powder diffraction (NPD) experiments demonstrate the appearance of short-range magnetic ordering below 170 K and a long-range antiferromagnetic ordering below 80 K. The refinement of the NPD pattern further shows that the Ru and Ir moments interact antiferromagnetically within the dimer and interact ferromagnetically with the Ni sublattice. These experimental findings have been complemented by first-principles density functional theory calculations incorporating spin-orbit coupling effects and electronic correlations for the transitional metal d states. The computed magnetocrystalline anisotropy is also found to be significant and the crystallographic c axis comes out to be the easy axis of magnetization, consistent with the spin alignment direction found from NPD. This study shows that the mixed ruthenate iridate triple perovskite series is a promising family to study the interplay among spin-orbit coupling, electron correlation, and electron filling as a variety of Ba3MRuIrO9 with M as a transition metal ion, rare-earth ion, and alkali metal ions can be synthesized.

Published
2024
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12. Growth-dependent structural ordering and stability in β-tungsten films for spintronic applications.

Author

Chattaraj, Ananya, Asirvatham, Joshua, Das, Gangadhar, Manna, Gouranga, Saha, Pinku, Kumar, Vijay, and Kanjilal, Aloke

Subjects
STRUCTURAL stability, SPUTTER deposition, ATOMIC structure, MAGNETRON sputtering, MOLECULAR dynamics, TUNGSTEN
Abstract

The β phase of tungsten has attracted great interest for spintronic applications due to its higher spin Hall angle compared to other elemental solids and large spin–orbit torque, but the stability of this phase is yet to be well understood as many different results are there in the literature mainly based on the film thickness, temperature, and overall growth conditions. The growth of films by sputter deposition has emerged as a promising technique to achieve β-W owing to its compatibility with current spintronic technology. We demonstrate here the efficient ability of dc magnetron sputtering to grow stable β-W films up to a thickness of ∼180 nm at room temperature by varying a set of deposition parameters like pressure, power, and deposition time and discuss the various underlying mechanisms. From these results, the optimized set of deposition parameters for growing β-W films is given. A clear understanding of the influence of oxygen in the atomic structure of β-W is obtained by varying the thickness of the films. This is confirmed from the ab initio molecular dynamics (MD) simulations, where the atomic structure is influenced by the oxygen doping concentration. A stable polycrystalline β phase can be achieved by controlled doping of oxygen. Additionally, a phase transformation from α to β with the doping of oxygen is also evident by MD simulations. [ABSTRACT FROM AUTHOR]

Published
2022
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13. Unexpected Chain of Redox Events in Co-Based Prussian Blue Analogues

Author

Morozova, Polina A., primary, Ryazantsev, Sergey V., additional, Dembitskiy, Artem D., additional, Morozov, Anatolii V., additional, Das, Gangadhar, additional, Aquilanti, Giuliana, additional, Gaboardi, Mattia, additional, Plaisier, Jasper R., additional, Tsirlin, Alexander A., additional, Presniakov, Igor A., additional, Abakumov, Artem M., additional, and Fedotov, Stanislav S., additional

Published
2023
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18. Proceedings of the NIELIT's International Conference on Communication, Electronics and Digital Technology : NICEDT-2024, Volume 1

Author

Isaac Woungang, Sanjay Kumar Dhurandher, Yumnam Jayanta Singh, Isaac Woungang, Sanjay Kumar Dhurandher, and Yumnam Jayanta Singh

Subjects
Computational intelligence, Artificial intelligence, Statistics, Cooperating objects (Computer systems), Internet of things, Computer networks—Security measures
Abstract

The book presents selected papers from NIELIT's International Conference on Communication, Electronics and Digital Technology (NICEDT-2024) held during 16–17 February 2024 in Guwahati, India. The book is organized in two volumes and covers state-of-the-art research insights on artificial intelligence, machine learning, big data, data analytics, cybersecurity and forensic, network and mobile security, advance computing, cloud computing, quantum computing, VLSI and semiconductors, electronics system, Internet of Things, robotics and automations, blockchain and software technology, digital technologies for future, and assistive technology for Divyangjan (people with disabilities).

Published
2024

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