Dr.Debaprasad Sahu received his Master's degree in Physics from Indian Institute of Technology Roorkee (IITR) in 2006 and Ph.D. in Experimental Plasma Physics from Indian Institute of Technology Kanpur (IITK) in 2013. His doctoral thesis work was based on development and characterization of an electron cyclotron resonance (ECR) based negative hydrogen ion source. After his PhD, he has been associated to Rajiv Gandhi University of Knowledge Technology (RGUKT) at Basar, Telenganaand Vellore Institute of Technology (VIT), Vellore as an Assistant Professor from the period of January, 2014 to May, 2015. In June, 2015 he joined as a post-doctoral fellow in Centre for Energy Studies, IIT Delhi where his research work involved design of a multiple ECR source based large negative ion source which can deliver high density negative ion current to be used for future fusion reactor. In August, 2016 he joined as an Assistant Professor in CES. His current research activities include development and understanding of various ECR based applications, ranging from plasma thruster to plasma based ion implantation. He is also interested in plasma spectroscopy and modelling of magnetized plasma dynamics by computational methods.
 R D Tarey, A Ganguli, D Sahu, R Narayanan and N Arora, Studies on plasma production in a large volume system using multiple compact ECR plasma sources, Plasma Sources, Science and Technology 26, 015009 (2017).
 S Bhattacharjee, I Dey, K Roy Chowdhury, D Sahu, S Pandey and SChatterjee, Trapping of electrons in troughs of self generated electromagnetic standing waves in a bounded plasma column,Physics of Plasmas 21, 012111 (2014).
 D Sahu,S Pandey, J Aneja and S Bhattacharjee, Negative ion rich plasmas in continuous and pulsed wave modes in a minimum-B magnetic field, Physics of Plasmas 19, 123517 (2012).
 D Sahu and S Bhattacharjee, Utilizing upper hybrid resonance for high density plasma production and negative ion generation in a downstream region,Journal of Applied Physics 112, 063304 (2012).
 S Pandey, D Sahu and S Bhattacharjee, Transition from interpulse to afterglow plasmasdriven by repetitive short-pulse microwaves in a multicusp magnetic field, Physics of Plasmas (Letters) 19, 080703 (2012).
 D Sahu, S Bhattacharjee, M Singh, M Bandyopadhyay and A Chakraborty, Optimization of negative ion current in a compact microwave driven upper hybrid resonance multicusp plasma source, Review of Scientific Instruments 83, 02A706 (2012).
 S Pandey, S Bhattacharjee and D Sahu, Observation of electron plasma waves inside large amplitude electromagnetic pulses in a temporally growing plasma, Physics of Plasmas 19, 012118 (2012).
 D Sahu, S Bhattacharjee, M Bandyopadhyay and A Chakraborty, Generation of cold electrons in the downstream region of a microwave plasma source with near boundary resonances for production of negative ions, Indian Journal of Physics 85, 1871 (2011).
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