Strain-dependent magnetic phase diagram of epitaxial thin films F Tsui, MC Smoak, TK Nath, CB Eom
Applied Physics Letters 76 (17), 2421-2423, 2000
513 2000 Ferromagnetism in Fe-doped ZnO nanocrystals: experiment and theory D Karmakar, SK Mandal, RM Kadam, PL Paulose, AK Rajarajan, TK Nath, ...
Physical Review B—Condensed Matter and Materials Physics 75 (14), 144404, 2007
459 2007 Effect of grain size modulation on the magneto- and electronic-transport properties of nanoparticles: The role of spin-polarized tunneling at the … P Dey, TK Nath
Physical Review B—Condensed Matter and Materials Physics 73 (21), 214425, 2006
299 2006 Three-dimensional strain states and crystallographic domain structures of epitaxial colossal magnetoresistive thin films RA Rao, D Lavric, TK Nath, CB Eom, L Wu, F Tsui
Applied physics letters 73 (22), 3294-3296, 1998
276 1998 Strain modification of epitaxial perovskite oxide thin films using structural transitions of ferroelectric substrate MK Lee, TK Nath, CB Eom, MC Smoak, F Tsui
Applied Physics Letters 77 (22), 3547-3549, 2000
235 2000 Temperature dependence of solubility limits of transition metals (Co, Mn, Fe, and Ni) in ZnO nanoparticles SK Mandal, AK Das, TK Nath, D Karmakar
Applied physics letters 89 (14), 2006
199 2006 Effect of three-dimensional strain states on magnetic anisotropy of La0. 8Ca0. 2MnO3 epitaxial thin films TK Nath, RA Rao, D Lavric, CB Eom, L Wu, F Tsui
Applied physics letters 74 (11), 1615-1617, 1999
173 1999 Magnetotransport and magnetic domain structure in compressively strained colossal magnetoresistance films Y Wu, Y Suzuki, U Rüdiger, J Yu, AD Kent, TK Nath, CB Eom
Applied physics letters 75 (15), 2295-2297, 1999
155 1999 A phenomenological model for magnetoresistance in granular polycrystalline colossal magnetoresistive materials: The role of spin polarized tunneling at the grain boundaries P Raychaudhuri, TK Nath, AK Nigam, R Pinto
Journal of applied physics 84 (4), 2048-2052, 1998
128 1998 Effects of film thickness and lattice mismatch on strain states and magnetic properties of La0. 8Ca0. 2MnO3 thin films RA Rao, D Lavric, TK Nath, CB Eom, L Wu, F Tsui
Journal of applied physics 85 (8), 4794-4796, 1999
123 1999 Microstructural and magnetic properties of ZnO: TM (TM= Co, Mn) diluted magnetic semiconducting nanoparticles SK Mandal, AK Das, TK Nath, D Karmakar, B Satpati
Journal of applied physics 100 (10), 2006
113 2006 Frequency and temperature dependence of dielectric and electrical properties of TFe2O4 (T= Ni, Zn, Zn0. 5Ni0. 5) ferrite nanocrystals SK Mandal, S Singh, P Dey, JN Roy, PR Mandal, TK Nath
Journal of Alloys and Compounds 656, 887-896, 2016
96 2016 Magnetoelectric properties of PbZr0.53 Ti0.47 O3 –Ni0.65 Zn0.35 Fe2 O4 multiferroic nanocomposites DK Pradhan, RNP Chowdhury, TK Nath
Applied Nanoscience 2, 261-273, 2012
95 2012 Ferritin induction protects cortical astrocytes from heme-mediated oxidative injury RF Regan, N Kumar, F Gao, Y Guo
Neuroscience 113 (4), 985-994, 2002
91 2002 Enhanced grain surface effect on magnetic properties of nanometric La0. 7Ca0. 3MnO3 manganite: Evidence of surface spin freezing of manganite nanoparticles P Dey, TK Nath, PK Manna, SM Yusuf
Journal of Applied Physics 104 (10), 2008
78 2008 Effect of substrate-induced strain on transport and magnetic properties of epitaxial La0. 66Sr0. 33MnO3 thin films P Dey, TK Nath, A Taraphder
Applied physics letters 91 (1), 2007
76 2007 Electronic structure and magnetism of the diluted magnetic semiconductor Fe-doped ZnO nanoparticles T Kataoka, M Kobayashi, Y Sakamoto, GS Song, A Fujimori, FH Chang, ...
Journal of Applied Physics 107 (3), 2010
73 2010 Effect of nanometric grain size on room temperature magnetoimpedance, magnetoresistance, and magnetic properties of La0. 7Sr0. 3MnO3 nanoparticles P Dutta, P Dey, TK Nath
Journal of Applied Physics 102 (7), 2007
73 2007 Oxygen-vacancy and charge hopping related dielectric relaxation and conduction process in orthorhombic Gd doped YFe0. 6Mn0. 4O3 multiferroics PR Mandal, TK Nath
Journal of Alloys and Compounds 628, 379-389, 2015
68 2015 A Griffiths-like phase in antiferromagnetic R0. 5Eu0. 5MnO3 (R= Pr, Nd, Sm) A Karmakar, S Majumdar, S Kundu, TK Nath, S Giri
Journal of Physics: Condensed Matter 25 (6), 066006, 2013
67 2013