top of page
This site was designed with the
.com
website builder. Create your website today.Start Now

​​

  1. M. Manikandan, A. Ghosh, and R. Mahendiran, “Giant magnetostriction in La2CoMnO6 synthesized by microwave irradiation”, Applied Physics Letters, 123, 022403 (2023). (Impact factor: 3.971).

  2. H. Zheng, A. Ghosh, M. J. Swamynadhan, G. Wang, Q. Zhang, X. Wu, I. Abdelwahab, W.P.D. Wong, Q-H. Xu, S. Ghosh, J. Chen, B.J. Campbell, A. Stroppa, J. Lin, R. Mahendiran, and K.P. Loh, “Electron Spin Decoherence Dynamics in Magnetic Manganese Hybrid Organic−Inorganic Crystals: The Effect of Lattice Dimensionality”, Journal of American Chemical Society,145, 33, 18549 (2023). Impact Factor: 16.383

  3. R. Singha, S. Sarkar, A. Ghosh, S. Roy, S. Barman, M. Balal, S. R. Barman, and P. Mandal, “Signatures of topological surface state and unconventional magnetotransport properties in elemental ruthenium”, Advanced Quantum Technologies, 6, 2200116 (2023). Impact Factor: 5.36

  4. S. Malick, A. Ghosh, C. K. Barman, A. Alam, Z. Hossain, Prabhat Mandal, and J. Nayak, P. Mandal, and Z. Hossain, “Weak antilocalization effect and triply degenerate state in Cu-doped CaAuAs, Physical Review B, 105, 165105 (2022).

  5. A. Ghosh, M. Manikandan, and R. Mahendiran, “Anomalous Nernst effect in perovskite La0.5Ca0.5CoO3”, IEEE Transactions on Magnetics, Published (2022). (Impact factor: 1.467)

  6. M. Manikandan, A. Ghosh, and R. Mahendiran “Magnetostriction in microwave synthesized La0.5Ba0.5CoO3” AIP Advances, (2022). Accepted (Impact factor: 1.579)

  7. M. Manikandan, A. Ghosh, and R. Mahendiran, “Anomalous Nernst Effect and Giant Magnetostriction in Microwave-Synthesized La0.5Sr0.5CoO3”, Journal of Physical Chemistry: C, 126 (2), 1152-1159 (2022). (Impact factor: 4.126)

  8. T. Bar, A. Ghosh, and A. Banerjee, “Suppression of spinodal instability by disorder in an athermal system”, Physical Review B, 104, 144102 (2021).

  9. A. Ghosh, A. Chanda, M. Manikandan, and R. Mahendiran, “Rare earth size dependence of Nernst thermopower in ferromagnetic perovskites: R0.6Sr0.4CoO3 (R = La, Pr, and Nd)”, Journal of Magnetism and Magnetic Materials,537,  168240 (2021). (Impact factor: 3.046)

  10. S. Roy, R. Singha, A. Ghosh, and P. Mandal, “Signature of topological nontrivial band structure in Ta3SiTe6”, Physical Review Materials, 5, 064203 (2021). (Impact factor: 4.86)

  11. A. Ghosh, A. Chanda, and R. Mahendiran, “Anomalous Nernst effect in Pr0.5Sr0.5CoO3”, AIP Advances, 11 (3), 035031 (2021). (Impact factor: 1.579)

  12. S. Roy, R. Singha, A. Ghosh, A. Pariari, and P. Mandal, “Anomalous Hall effect in the half-metallic Heusler compound Co2TiX (X=Si, Ge)”, Physical Review B, 102, 085147 (2020).

  13. S. Ghosh, A. Ghosh, P. Sen, and K. Mandal, “Giant room-temperature magnetocaloric effect across the magnetostructural transition in (MnNiSi)1-x(FeCoGa)x alloys”, Physical Review Applied, 14, 014016 (2020).

  14. A. De, A. Ghosh, R. Mandal, S. Ogale and S. Nair, “Temperature dependence of the Spin Seebeck effect in a mixed valence manganite”, Physical Review Letters, 124, 017203 (2020).

  15. S. Ghosh, A. Ghosh, P. Sen, and K. Mandal, “Magnetic and magnetocaloric properties in TbCo2Si2 alloy”, AIP Conference Proceedings, 2265 (1), 030553 (2020).

  16. A. Ghosh, R. Das and R. Mahendiran, “Skew scattering dominated anomalous Nernst effect in bulk La1-
    xNaxMnO3”,     Journal of Applied Physics, 125, 153902 (2019).

  17. A. Ghosh*, R. Rawat, A. Bhattacharyya, G. Mandal, A. K. Nigam and S. Nair, “Measurement independent magnetocaloric effect in Mn-rich Mn-Fe-Ni-Sn(Sb/In) Heusler alloys”, Journal of Magnetism and Magnetic Materials (2018), 476, 92-99 (2019).

  18. A. Ghosh, A. De and S. Nair, “Large anomalous Nernst effect across the magneto-structural transition in a bulk Ni-Co-Mn-Sn full Heusler alloy”, Applied Physics Letters, 113, 262405 (2018).

  19. C. Dey, A. Ghosh, M. M. Goswami, A. Adhikary and A. Ghosh, “Improvement of Anticancer Drug Release by Cobalt Ferrite Magnetic Nanoparticles through Combined pH and Temperature Responsive Technique”, ChemPhysChem 19, 1–8 (2018).

  20. T. Chabri, A. Ghosh, S. Nair, A. Awasthi, A. Venimadhav and T. K. Nath, “Effects of thermal and magnetic path on first order martensite transition of disordered Ni45Mn44Sn9In2 Heusler alloy exhibiting giant magnetocaloric effect and magnetoresistance near room temperature”, Journal of Physics D: Applied Physics, 51, 195001 (2018).

  21. S. Ghosh, A. Ghosh and K. Mandal, “Reversible magnetocaloric effect and Critical exponent analysis in Mn-Fe-Ni- Sn Heusler alloys”, Journal of Alloys and Compounds, 746, 200–205 (2018).

  22. A. Ghosh* and S. Nair, “Magnetic and Magnetocaloric Properties of Gd-doped Mn-Ni-Sn alloys”, DAE-SSPS 2017, AIP Conference Proceedings, 1942, 130032 (2018).

  23. S. Arumugam, S. Ghosh, A. Ghosh*, U. Devarajan, M. Kannan, L. Govindaraj, K. Mandal, “Effect of hydrostatic pressure on the magnetic, exchange bias and magnetocaloric properties of Ni45.5Co2Mn37.5Sn15”, Journal of Alloys and Compounds, 712, 714–719 (2017).

  24. C. Dey*, K. Baishya, A. Ghosh, M. M. Goswami, A. Ghosh, K. Mandal, “Improvement of drug delivery by hyperthermia treatment using magnetic cubic cobalt ferrite nanoparticles”, Journal of Magnetism and Magnetic Materials, 427, 168-174 (2017).​

  25. A. Ghosh*, P. Sen and K. Mandal, "Measurement protocol dependent magnetocaloric properties in a Si-doped Mn-rich Mn-Ni-Sn-Si off-stoichiometric Heusler alloy", Journal of Applied Physics, 119, 183902 (2016).

  26. D. Sarkar, A. Ghosh, R. Rakshit, and K. Mandal*, “Magnetic Properties of Fe3O4 Nano Hollow Spheres”, Journal of Magnetism and Magnetic Materials, 393, 192-198 (2015).

  27. A. Ghosh* and K. Mandal, “Magnetocaloric Effect in Mn-rich Mn-Fe-Ni-Sn alloys”, DAE-Solid State Physics Symposium, DAE-SSPS 2014, AIP Conference Proceedings, 1665, 030015 (2015).

  28. A. Ghosh* and K. Mandal, “Effect of Fe substitution on the magnetic and magnetocaloric properties of Mn-rich Mn-Ni-Fe-Sn off-stoichiometric Heusler alloys”, Journal of Applied Physics, 117, 093909 (2015).

  29. A. Ghosh* and K. Mandal, “Tuning of magnetocaloric potential in disordered Ni-Mn-Sn alloy”, International Conference on Magnetic Materials and Applications, ICMagMA 2013, Physics Procedia, 54, 10–15 ( 2014).

  30. A. Ghosh* and K. Mandal, “A comparative study of magnetocaloric properties between Ni-rich and Mn-rich Ni-Mn-Sn alloys”, IEEE Transactions on Magnetics, 50, no. 11, 1-4 (2014).

  31. D. Pal*, A. Ghosh and K. Mandal, “Large inverse magnetocaloric effect and magnetoresistance in nickel rich Ni52Mn34Sn14 Heusler alloy”, Journal of Magnetism and Magnetic Materials, 360, 183-187 (2014).

  32. A. Ghosh* and K. Mandal, “Effect of structural disorder on the magnetocaloric properties of Ni-Mn-Sn alloy”, Applied Physics Letters, 104, 031905 (2014).

  33. S. Ghosh*, G. G. Khan, A. Ghosh, S. Varma and K. Mandal, “Zinc vacancy-induced high-TC ferromagnetism and photoluminescence in group-1 alkali-metal substituted p-type ZnO thin films”, Crystal Engineering and Communication, 15, 7748 (2013).

  34. A. Ghosh* and K. Mandal, “Large magnetic entropy change and magnetoresistance associated with a martensitic transition of Mn-rich Mn50.5-xNi41Sn8.5+x alloys”, Journal of Physics D: Applied Physics, 46, 435001 (2013).

  35. A. Ghosh* and K. Mandal, “Large magnetoresistance associated with large inverse magnetocaloric effect in Ni-Co-Mn-Sn alloys”, European Physical Journal B, 86, 378 (2013).

  36. A. Ghosh* and K. Mandal, “Large inverse magnetocaloric effect in Ni48.5-xCoxMn37Sn14.5 (x = 0, 1 and 2) with negligible hysteresis”, Journal of Alloys and Compounds, 579, 295–299 (2013).

​

bottom of page