G Naveen Babu
Department of Electrical Engineering,
School of Engineering
Email Contact: firstname.lastname@example.org
2002 – Bachelor of Engineering in Electrical and Electronics Engineering
2004 – Master of Engineering in Applied Electronics.
2013 – PhD in Electronics and Communication
Post doctoral fellow, Department of Electrical and Computer Engineering, University of Alberta, Canada, 2014 - 2015.
Assistant Professor as Founding faculty member – Shiv Nadar University, 2011 – 2014.
Senior Lecturer – Jaypee Institute of Information Technology, 2005 – 2011.
Electromagnetics, Microwave, Energy management.
- Das Sanghamitro, Nguyen Hoang-Linh, Babu Naveen, Iyer Ashwin, “Free-Space Focusing at C-Band Using a Flat Fully Printed Multilayer Metamaterial Lens”, IEEE Transactions on Antennas and Propagation, 1899-1907, May 2015.
- N. Kalyanasundaram and G. N. Babu, “Propagation of electromagnetic waves guided by the anisotropically conducting model of a tape helix supported by dielectric rods,” Progress In Electromagnetics Research B, Vol. 51, 81-99, 2013.
- Kalyanasundaram, N.; Babu, G.N.; , “Perfectly conducting tape-helix model for guided electromagnetic wave propagation,”
Microwaves, Antennas & Propagation, IET , vol.6, no.8, pp.899-907, June 7 2012
- N. Kalyanasundaram, G. Naveen Babu, and R. Tulsian, “On the Distribution of Current on an Open Tape Helix,” Progress In Electromagnetics Research M, Vol. 12, 81-93, 2010.
- N.Kalyanasundaram,G.Naveen Babu, Dispersion of Electromagnetic Waves Guided by an Open tape Helix II, Progress in Electromagnetic Research B, Vol 19, 133-150, 2010.
- N.Kalyanasundaram,G.Naveen Babu, Dispersion of Electromagnetic Waves Guided by an Open tape Helix I, Progress in Electromagnetic Research B, Vol 16, 311-331, 2009.
- G.Naveen Babu, Aayush Rustogi, Kanika Jain, Modelling of Complex Interconnect Structures at an International Conference on “TENCON”, Singapore, 2009.
- N. Kalayansundaram, G. Naveen Babu, Propagation of Electromagnetic Waves Guided by an Open Tape Helix at an International Conference on “Vacuum Tubes (IVEC-2011)”, Bangalore, India, 2011.
- N. Kalayansundaram, J. Saini, G. Naveen Babu, Small-signal Field Analysis of Gyro-TWT Amplifier at an International Conference on “Vacuum Tubes (IVEC-2011)”, Bangalore, India, 2011.
- G. Naveen Babu, Richards Joe Stanislaus, Wave Propagation characteristics in Dielectric loaded anisotropically conducting tape helix slow wave structures at an “International Conference on Vacuum Tubes (IVEC-2014)”, Monterey, California, USA, 2014.
National and International Recognition:
Reviewer - IEEE Transactions on Microwave Theory and Techniques.
Reviewer - IET Microwaves, Antennas & Propagation.
Reviewer - Progress In Electromagnetic Research (PIER)
Life Member – Indian Society of Technical Education
Recipient of Indo-Canadian Sastry award, 2014
Dr. G. Naveen Babu obtained his BE, ME and PhD degrees in 2002, 2004 and 2013 respectively. In 2011, after his seven years of teaching and research experience at undergraduate and Masters level, he joined the Department of Electrical Engineering, Shiv Nadar University, Greater Noida, India, as a founding faculty. He was also the Coordinator of Electronics & Communication Engineering and Electrical & Electronics Engineering before he moved to the University of Alberta, Canada, to pursue post-doctoral research in the field of Microwave Tubes. From 2014 to 2015, he completed a Postdoctoral Fellowship with the Department of Electrical and Computer Engineering, University of Alberta, Edmonton, AB, Canada. He currently continues to work on slow wave structures, fast wave analysis of slow wave structures, fundamental electromagnetic theory, and microwave circuits and antennas. His research area is Microwave Engineering with focus towards travelling wave tubes. He also works on metamaterial dielectric lenses and design of antennas. He has interests in renewable energy and energy auditing procedures. He has authored/coauthored a few important papers on helical slow-wave structures. He brings with him more than 11 years of teaching experience.