Research Motivation

Theoretical studies have been the backbone of many academic research in wireless systems several years ago, recent times, and will continue to be the case. The mathematical framework of theoretical studies is heavily reliant on assumptions that takes away the complexities of the physical world. Don't you think it will be fun and more rewarding if we incorporate testbed implementations that evaluate theoretical concepts in our studies? This will not only enhance our knowledge of the subject of investigation but also reinforce the mathematical models by capturing real-world physical parameters. 

His research is fueled by a keen interest in leveraging both theoretical modeling, structural fabrications and testbed-based implementations for designing, and experimentally validating next-generation RF and wireless systems. He focuses on developing innovative antenna architectures, RF circuits, and hybrid magnonic systems for advanced wireless communication and quantum information science applications. He combines electromagnetic simulation, fabrication, and precision measurements to his work to explore how spin-wave dynamics, metamaterials, and microwave structures can enhance the performance, scalability, and functionality of future hardware designs vital for the development of Quantum devices and next-G communication systems. He is particularly interested in system-level integration — bridging component-level innovations such as antennas and magnonic devices with large-scale wireless networks — to enable high-efficiency, low-latency, and quantum-resilient communication infrastructures of the future.

Research Interests

Wireless Systems & Testbed Design

RF & Microwave Engineering

Electromagnetics & Antenna Design

Hybrid Magnonics for Quantum Information Science and Engineering

Wireless Network Security

In the course of his academic endeavors, he has become knowledgeable and skilled in various research areas relevant to telecom engineering, electrical and computer engineering, and intelligent media engineering. While he continues to enhance his skills in his field of study, he is increasingly proficient in RF & Microwave Engineering, wireless systems, and vulnerability analysis, and Quantum systems. 

Stay tuned!

He intends to keep this page frequently updated to reflect the evolution of his research interests, projects, and the progress of his Ph.D.