Dr. Mukesh Kumar Alaria

Principal Scientist, Facility In-charge

Work Email: mka@ceeri.res.in
Personal Email: mukesh_pilani@yahoo.co.in
Mobile: 9602212762
EPBX Office: 2446
EPBX Residential:
BSNL Office: 252446
BSNL Residential:
BSNL Private: 244774

Dr. Alaria research interest is on design and development of high power and high frequency Gyrotrons. He has developed quasi optical mode converter and RF windows for high power Gyrotrons. He has made significant contribution in the design and devolvement of 42 GHz, 200 kW Gyrotron prototype. He has also contribution in the cold test and other facilities of Gyrotrons. Presently he is developing 170 GHz, 1MW short pulse Gyrotron. More than twenty students have done their dissertation work for their M.Tech/M.Sc./B.Tech degree under his supervision/co-supervision. He has published more than 30 papers in International & national Journals and more than 60 papers in national & international Conferences. He has filed one patent. He is Senior Member of IEEE (USA), Life Member of Instrument society of India, Member of Institution of Electronics and Telecommunication Engineers (IETE) and Member of VEDA society. He is the regular reviewer of various reputed journals i.e. IEEE Plasma sciences, IEEE-MTT, International Journal of Electronics, physics of plasma, IET Microwaves, Antennas & Propagation, and Indian Journal of Pure & Applied Physics (IJPAP), etc. He is the recipient of VEDA Mid Carrer Award -2018 by VEDA Society Bangalore and Outstanding Scientist Award- 2016 (Microwave Engineering) by Venus International Foundation, Chennai.

Specific skill: Simulations in Ansoft HFSS and CST microwave studio software and development of Gyrotrons i.e. MIG, mode converter and window.

Areas of Interest: Design and Development of Gyro-devices.

Projects involved in:

  • DST sponsored project “Design and development of 42 GHz, 200 kW Long pulse Gyrotron”
  • CSIR Network project “Design and development of 170 GHz, 1MW short pulse Gyrotron”
  • DRDO sponsored project “Design and development of electron beam compression region for 100 kW, mm-wave Gyrotron”