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Academic Experts
Prof. Jasmine Saini
PROFESSOR
jasmine.saini@jiit.ac.in
Biography

Prof. Jasmine Saini is a Professor in the Department of Electronics and Communication Engineering at Jaypee Institute of Information Technology (JIIT), Noida. She holds a Ph.D. in Electronics and Communication Engineering from JIIT Noida, an M.E. from Thapar Institute of Engineering and Technology, Patiala, and a B.E. in the same discipline.

With over 21 years of teaching and research experience, Prof. Saini specializes in RF and Microwave Engineering, Photonics and Biosensors, Fast-wave Devices, and Optical Communications. She has significantly contributed to academic leadership by serving as UG Coordinator for B.Tech (ECE), heading the RF and Microwave Engineering Group, leading curriculum design, and developing advanced laboratories such as the Postgraduate Laboratory for Advanced Communication Systems.

Prof. Saini has established strong industry and research collaborations with institutions such as King Abdullah University of Science and Technology (KAUST), Saudi Arabia, Manipal Institute of Technology, Udupi, and other national and international academic partners. She has guided many Ph.D. scholars to completion and supervised numerous M.Tech projects.

She has been actively involved in institutional governance, serving on NAAC Steering Committee, Audit Committees, Curriculum Committees, and Institutional Linkage Teams. She has also played key roles in organizing major conferences such as the International Conference on Signal Processing and Communication (ICSC) as Finance Chair, Co-Track Chair, and Editor.

A Senior Member of IEEE and member of its Microwave Theory and Techniques Society, Prof. Saini has authored numerous publications in reputed journals such as Scientific Reports, Optics Express, and Progress in Electromagnetics Research.

Research Highlights

Prof. Jasmine Saini’s research primarily focuses on RF and Microwave Engineering, Photonics and Biosensors, Fast-wave Devices, and Optical Communication Systems. Her work has led to innovative designs of microstrip antennas, including conformal and reconfigurable structures for advanced wireless and defense applications, and high-sensitivity nanophotonic resonators for biomedical sensing.

She has introduced graded-index and topological photonic resonator structures that significantly enhance sensitivity and selectivity in biosensing, enabling early detection of cholesterol and other biochemical analytes. These designs hold promise for point-of-care diagnostics and integrated lab-on-chip platforms. Her antenna research includes compact, multi-band, and beam-reconfigurable designs with applications in 5G/6G communications, radar, and IoT networks.

Prof. Saini has established strong research collaborations with King Abdullah University of Science and Technology (KAUST), Manipal Institute of Technology, Udupi, and several Indian research groups, fostering interdisciplinary advancements in photonic sensing and RF technologies.

She has successfully supervised multiple Ph.D. and M.Tech theses in cutting-edge domains and has contributed to funded research projects, including support from the Directorate of Research, Innovation, and Development (DRID) at JIIT and industry-linked initiatives in RF/microwave device design.

Her work has impacted both academia and industry through over 40 peer-reviewed publications in reputed journals like Scientific Reports, Optics Express, and Progress in Electromagnetics Research. By bridging fundamental theory with practical device development, Prof. Saini’s research continues to contribute to next-generation communication systems, biomedical sensing solutions, and sustainable electronic device design.

Areas Of Interest
  • RF and Microwave Engineering
  • Photonics and Biosensors
  • Fast-wave devices
  • Optical Communications
Publications
  1. D. Dash, J. Saini, and A. K. Goyal, “Performance analysis of hyperbolic graded topological resonator for biosensing applications,” Scientific Reports, vol. 15, pp. 9107(11), 2025.
  2. J. Saini, A. Kumar, and A. K. Goyal, "Performance Analysis of Chirped Graded Photonic Crystal Resonator for Biosensing Applications," Photonics, vol. 11, no. 12, pp. 1173(12), 2024.
  3. D. Dash, J. Saini, A. K. Goyal, and Y. Massoud, “Exponentially index modulated nanophotonic resonator for high-performance sensing applications,” Scientific Reports, vol. 13, pp. 1431(10), 2023.
  4. A. K. Goyal, D. Dash, J. Saini, and Y. Massoud, “Theoretical analysis of graded-index topological resonator for improved sensing performance,” Optics Express, vol. 32, no. 3, pp. 4102(9), 2024.
  5. A. K. Goyal and J. Saini, "Performance Analysis of Bloch Surface Wave Based Sensor using Transition Metal Dichalcogenides," Applied. Nanoscience, vol. 10, no. 11, pp. 4307(7), 2020.