Magnetocaloric effect in Ho5Pd2: Evidence of large cooling power T Samanta, I Das, S Banerjee Applied Physics Letters 91 (8), 2511, 2007 | 321* | 2007 |
Giant magnetocaloric effect in antiferromagnetic ErRu2Si2 compound T Samanta, I Das, S Banerjee Applied Physics Letters 91 (15), 2506, 2007 | 243 | 2007 |
Influence of charge ordering on magnetocaloric properties of nanocrystalline Pr0. 65 (Ca0. 7Sr0. 3) 0.35 MnO3 A Biswas, T Samanta, S Banerjee, I Das Applied Physics Letters 92 (21), 2502, 2008 | 119 | 2008 |
Modification of the charge ordering in Pr1/2Sr1/2MnO3 nanoparticles A Biswas, I Das, C Majumdar JOURNAL OF APPLIED PHYSICS 98 (12), 124310, 2005 | 90 | 2005 |
Experimental observation of charge ordering in nanocrystalline Pr 0.65 Ca 0.35 MnO 3 A Biswas, I Das Physical Review B 74 (17), 172405, 2006 | 85 | 2006 |
Near room temperature giant magnetocaloric effect and giant negative magnetoresistance in Co, Ga substituted Ni–Mn–In Heusler alloy T Paramanik, I Das Journal of Alloys and Compounds 654, 399-403, 2016 | 78 | 2016 |
Universality in the entropy change for the inverse magnetocaloric effect A Biswas, S Chandra, T Samanta, B Ghosh, S Datta, MH Phan, ... Physical Review B 87 (13), 134420, 2013 | 78 | 2013 |
Magnetocaloric and magnetoresistance studies of GdPd2Si R Rawat, I Das Journal of Physics: Condensed Matter 13 (3), L57, 2001 | 74 | 2001 |
Magnetocaloric effect in Gd2PdSi3 EV Sampathkumaran, I Das, R Rawat, S Majumdar Applied Physics Letters 77, 418, 2000 | 70 | 2000 |
Magnetocaloric properties of nanocrystalline La0. 125Ca0. 875MnO3 A Biswas, T Samanta, S Banerjee, I Das Applied Physics Letters 94 (23), 233109, 2009 | 68 | 2009 |
Magnetic and transport properties of nanocrystalline Nd0. 5Sr0. 5MnO3 A Biswas, I Das Journal of Applied Physics 102 (6), 064303, 2007 | 68 | 2007 |
Significant enhancement of magnetoresistance with the reduction of particle size in nanometer scale K Das, P Dasgupta, A Poddar, I Das Scientific reports 6, 2016 | 63 | 2016 |
The universal behavior of inverse magnetocaloric effect in antiferromagnetic materials A Biswas, S Chandra, T Samanta, MH Phan, I Das, H Srikanth Journal of Applied Physics 113 (17), 17A902, 2013 | 60 | 2013 |
The similar dependence of the magnetocaloric effect and magnetoresistance in TmCu and TmAg compounds and its implications R Rawat, I Das Journal of Physics: Condensed Matter 13 (19), L379, 2001 | 60 | 2001 |
Specific heat of single-crystalline Pr 0.63 Ca 0.37 MnO 3 in the presence of a magnetic field AK Raychaudhuri, A Guha, I Das, R Rawat, CNR Rao Physical Review B 64 (16), 165111, 2001 | 54 | 2001 |
The effect of artificial grain boundaries on magneto-transport properties of charge ordered-ferromagnetic nanocomposites K Das, B Satpati, I Das RSC Advances 5 (35), 27338-27346, 2015 | 51 | 2015 |
Low-temperature electrical conductivity of A Chainani, DD Sarma, I Das, EV Sampathkumaran Journal of Physics: Condensed Matter 8 (43), L631, 1996 | 50 | 1996 |
Electrical-resistance anomalies in a Ce-Ru-Sn phase I Das, EV Sampathkumaran Physical Review B 46 (7), 4250, 1992 | 49 | 1992 |
Crystal Structure, Specific Heat, and119Sn Mössbauer Spectroscopy of CeRu4Sn6: A Ternary Stannide with Condensed, Distorted RuSn6Octahedra R Pöttgen, RD Hoffmann, EV Sampathkumaran, I Das, BD Mosel, ... Journal of Solid State Chemistry 134 (2), 326-331, 1997 | 48 | 1997 |
Magnetocaloric properties of nanocrystalline Pr0. 65 (Ca0. 6Sr0. 4) 0.35 MnO3 A Biswas, T Samanta, S Banerjee, I Das Journal of Applied Physics 103 (1), 3912, 2008 | 47 | 2008 |