My name is Tarun Kumar and I am a Doctorate in Electronics & Communication Engineering. I obtained my Masters and Doctorate degree from Jaypee Institute of Information Technology, Noida (U.P) in 2008 and 2017, respectively. Currently I am working with the University of Petroleum & Energy Studies, Dehradun (Uttarakhand) in the Department of Electrical & Electronics Engineering. My Ph.D. thesis was on Analysis and Design of Metamaterials using Ferromagnetic Microwires. My research interests are; Metamaterials, Photonics & Plasmonic, Antenna Design using Machine learning and Phased Array Antenna. |
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1. Tarun Kumar, Natarajan Kalyanasundaram and Geetam Singh Tomar,“Theoretical and Numerical Analysis of the Effective Medium Properties of a Ferromagnetic Microwire Lattice," accepted for the publication in Waves in Random and Complex Media, Taylor & Francis (Print ISSN: 1745-5030 Online ISSN: 1745-5049, Manuscript ID: TWRM-2021- 0656) DOI:10.1080/17455030.2022.2039801.
- Tarun Kumar and Natarajan Kalyanasundaram, “Effective Medium Properties of a Ferromagnetic Microwire Grid," recently published online in Waves in Random and Complex Media, Taylor & Francis on May 20, 2020, Online link: https://doi.org/10.1080/17455030.2020.1778212. (SCI)
- T. Kumar and N. Kalyansundaram, “A novel DNG medium formed by ferromagnetic microwire grid," Progress In Electromagnetics Research B, Vol. 74, 155-171, 2017. (SCOPUS)
- Tarun Kumar, Natarajan Kalyanasundaram , Bhaurao K. Lande, “A Generalized case of the electromagnetic scattering from an array of ferrite cylinders ", Waves in Random and Complex Media, Taylor & Francis, vol. 25, Iss. 4, 2015, pages 587-607. (SCI)
- T. Kumar, N. Kalyanasundaram, B. K. Lande, “A Generalized case of Electromagnetic Scattering from a finite number of Ferromagnetic cylinders", Advanced Electromagnetics, vol 4, No 3 (2015), pages 8-16.ISSN: 2119-0275. (SCOPUS, ESCI)
- T. Kumar, N. Kalyanasundaram, and B. K. Lande, “Analysis of the generalized case of scattering from a ferromagnetic microwire grid", Progress In Electromagnetics Research M, vol. 35, 1-10, 2014. (SCOPUS, ESCI)
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