Amlan Dutta
    INSPIRE Faculty, SNBNCBS
   



   amlan.dutta@bose.res.in
   www.bose.res.in
   Telephone +91-33-2335 5706/07/08 (extn: 222)
 

Educational Background:

  • M. Tech.: School of Nanoscience and Nanotechnology, Jadavpur University, Kolkata, 2008.

  • PhD: Faculty of engineering, Jadavpur University, 2012.
  • Professional Background:

    • DST-INSPIRE Faculty, S. N. Bose National Centre for Basic Sciences, Kolkata (2013 - Present).

    Professional recognition, awards and fellowships received:

    • University gold medallist in the M. Tech. course.

    • Qualified GATE 2006.

    • CSIR Senior Research Fellowship.

    • UGC meritorious fellowship in Nanoscience and technology.

    Research Interests:

    • Molecular dynamics simulations.
    • Dynamics of crystal dislocations.
    • Micromechanics and plastic deformation of solids.
    • Statistical analysis of serrated yielding.
     

        Significant recent publications:

    • A. Dutta, Compressive deformation of Fe nanopillar at high strain rate: Modalities of dislocation dynamics, Acta Mater. (in press).
    • S. Das, A. Dutta, Elastic behavior of amorphous-crystalline silicon nanocomposite: An atomistic view, Physica E 85 (2017) 180-184.
    • A. Dutta, A. K. Raychaudhuri and T. Saha-Dasgupta, Plasticity-mediated collapse and recrystallization in hollow copper nanowires: a molecular dynamics simulation, Beilstein J. Nanotechnol. 7 (2016) 228-235.
    • S. Das, A. Moitra, M. Bhattacharya and A. Dutta, Simulation of thermal stress and buckling instability in Si/Ge and Ge/Si core/shell nanowires, Beilstein J. Nano. 6 (2015) 1970-1977.
    • A. Dutta, Kinetics of neck formation during nanoparticle sintering: approach of dimensionality reduction, Rev. Adv. Mat. Sci. 39 (2014) 25-33.
    • A. Dutta, M. Bhattacharya and P. Barat,Statistics of dislocation pinning at localized obstacles, J. App. Phys. 116, (2014) 143510.
    • A. Dutta, Swastika Chatterjee, A. K. Raychaudhuri, Amitava Moitra and T. Saha-Dasgupta, In-silico investigation of Rayleigh instability in ultra-thin copper nanowire in premelting regime, J. App. Phys. 115, (2014) 244303 .
     
     
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