T
Tirthankar Chakraborty
Researcher at Indian Institute of Science
Publications - 16
Citations - 192
Tirthankar Chakraborty is an academic researcher from Indian Institute of Science. The author has contributed to research in topics: Dielectric & Magnetization. The author has an hindex of 5, co-authored 12 publications receiving 131 citations.
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Journal ArticleDOI
Magnetocaloric properties of R2NiMnO6 (R=Pr, Nd, Tb, Ho and Y) double perovskite family
TL;DR: In this article, isothermal magnetic entropy change ( Δ S M (T, H ) ) and relative cooling power (RCP) for all systems are calculated and compared, and the results highlight the potential of magnetocaloric refrigerant materials at low temperature.
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Disordered ferromagnetism in Ho2NiMnO6 double perovskite
Tirthankar Chakraborty,Harikrishnan S. Nair,Harikrishnan S. Nair,Hariharan Nhalil,K. Ramesh Kumar,André M. Strydom,Suja Elizabeth +6 more
TL;DR: Magnetic and dielectric properties of the double perovskite Ho2NiMnO6 are reported and signs of inherent Griffiths phase pertaining to the Ni/Mn subsystem are visible.
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Crystal Structures and Phase Transitions of the van-der-Waals Ferromagnet VI3
Petr Doležal,Marie Kratochvílová,Václav Holý,Petr Čermák,Vladimír Sechovský,Michal Dušek,Martin Míšek,Tirthankar Chakraborty,Yukio Noda,Suhan Son,Je-Geun Park +10 more
TL;DR: In this paper, a single-crystal X-ray-diffraction study of the evolution of the trigonal crystal structure R-3 with temperature with emphasis on phase transitions is presented.
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Evolution of Jahn-Teller distortion, transport and dielectric properties with doping in perovskite NdFe1-xMnxO3 (0 ≤ x ≤ 1) compounds
TL;DR: Frequency variation of the dielectric constant is in agreement with the modified Debye law from which relaxation dispersion is estimated and a crossover from dynamic to static Jahn-Teller distortion is discernible.
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Two fold spin reorientation and field induced phase transition in Ho0.5Dy0.5FeO3 single crystal
TL;DR: In this paper, it is shown from isothermal magnetization along c axis that field induced Γ 1 → Γ 4 transition is feasible within the intermediate temperature range of T SR 1 - T SR 2 and can be triggered at a critical field.