Researcher | University of Sistan and Baluchestan | Iran
Dr. Ehsan Adibnia is a distinguished researcher in electrical engineering whose work exemplifies excellence in the integration of artificial intelligence and photonics. With a citation count of 6,447, an h-index of 45, and an i10-index of 153, his contributions to nanophotonics, plasmonics, and photonics-based optical communication have gained wide recognition. His research explores deep learning applications in photonic design, optical switching, and plasmonic structures, emphasizing the transformative role of photonics in next-generation computing and biosensing technologies. Dr. Adibnia has served as an assistant editor and reviewer for several high-impact journals, contributing to the advancement of global photonics research. His professional experience combines academic rigor and industrial insight, including expertise in programming, simulation tools like Lumerical and COMSOL, and PLC automation. His educational foundation in electrical engineering and his scholarly engagement at the University of Sistan and Baluchestan have provided a platform for innovative exploration in nanophotonics, quantum photonics, and integrated photonic circuits. Recognized for his excellence in photonics-driven design optimization, he has published influential studies on inverse design methods for fiber Bragg gratings, plasmonic resonators, and photonic crystal devices. His research interests span from artificial-intelligence-enhanced photonic structures to optical biosensors and metamaterials, underlining his commitment to interdisciplinary innovation. Through awards, editorial service, and sustained academic leadership, Dr. Adibnia continues to shape the evolving landscape of photonics, positioning his work at the intersection of computation, materials science, and optical engineering, where photonics defines the future of high-speed, intelligent systems.
Profiles: ORCID | Google Scholar
Featured Publications
1. Mirbagheri, M., Adib, E., Hughes, B. R., Waldman, S. D., Banquy, X., & Hwang, D. K. (2019). Advanced cell culture platforms: A growing quest for emulating natural tissues. Materials Horizons, 6(1), 45–71.
2. Esteki, M., Poorali, B., Adib, E., & Farzanehfard, H. (2015). Interleaved buck converter with continuous input current, extremely low output current ripple, low switching losses, and improved step-down conversion ratio. IEEE Transactions on Industrial Electronics, 62(8), 4769–4776.
3. Bahrami, H., Farhangi, S., Iman-Eini, H., & Adib, E. (2017). A new interleaved coupled-inductor nonisolated soft-switching bidirectional DC–DC converter with high voltage gain ratio. IEEE Transactions on Industrial Electronics, 65(7), 5529–5538.
4. Adib, E., & Farzanehfard, H. (2008). Family of zero-current transition PWM converters. IEEE Transactions on Industrial Electronics, 55(8), 3055–3063.
5. Adib, E., & Farzanehfard, H. (2009). Zero-voltage transition current-fed full-bridge PWM converter. IEEE Transactions on Power Electronics, 24(4), 1041–1047.*