Assist. Prof. Dr. Mohsen Zahir Joozdani | Particle accelerators | Editorial Board Member

Published on by Physicist Particle

Assist. Prof. Dr. Mohsen Zahir Joozdani | Particle accelerators | Editorial Board Member

Assistant Professor | Niroo Research Institute (NRI) | Iran

Assist. Prof. Dr. Mohsen Zahir Joozdani is a distinguished researcher and academic whose work demonstrates remarkable contributions to the advancement of particle accelerators and applied physics. His research integrates advanced particle accelerators technology with experimental and computational methods, focusing on innovative developments that enhance scientific understanding and industrial applications. As a leading figure in the field of particle accelerators, he has authored and co-authored numerous research articles in reputed international journals, contributing significantly to the global scientific community. His professional achievements reflect a deep commitment to excellence in particle accelerators engineering and the pursuit of transformative solutions through interdisciplinary collaboration. Assist. Prof. Dr. Mohsen Zahir Joozdani’s research impact extends across diverse areas, where particle accelerators serve as the core foundation for breakthroughs in energy systems, material characterization, and radiation science. He has actively collaborated with renowned researchers and institutions, promoting cross-border scientific partnerships that advance the performance, safety, and sustainability of particle accelerators. Driven by innovation, his scholarly work has established new analytical frameworks and experimental methodologies, shaping the next generation of particle accelerators research. His scientific influence has not only elevated academic standards but also inspired a global audience of scientists and engineers dedicated to the advancement of particle accelerators and their real-world applications. His continuous dedication to the exploration of particle accelerators underlines his role as a visionary academic whose expertise continues to impact the future of scientific discovery. Scopus profile of 191 Citations, 16 Documents, 6 h-index.

Profile: Scopus

Featured Publication

1. A novel electromagnetic analysis of a TM02 mode dielectric assist accelerating structure. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 2024.

Patel Tapankumar Mrushadkumar | Plasma Physics | Best Researcher Award

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Mr. Patel Tapankumar Mrushadkumar | Plasma Physics | Best Researcher Award

Patel Tapankumar Mrushadkumar | Institute for Plasma Research | India

Mr. Patel Tapankumar Mrushadkumar is a dedicated researcher in Plasma Physics whose academic and professional journey reflects excellence and innovation. Currently pursuing his Ph.D. in Engineering Sciences at the Institute for Plasma Research, Homi Bhabha National Institute, his research primarily focuses on the fabrication of prototype ion extractor grids, a crucial development in Plasma Physics. His academic background includes M.Tech in Nuclear Science and Technology and B.Tech in Electrical Engineering, both completed with outstanding distinction. His research in Plasma Physics integrates computational fluid dynamics, heat transfer analysis, and fusion applications, contributing significantly to scientific understanding. With multiple publications in reputed journals like Fusion Engineering and Design and Fusion Science and Technology, his work on friction-welded joints and ion extractor grids demonstrates deep technical insight and precision in Plasma Physics. His professional journey includes research internships at IGCAR and industrial exposure at Reliance DTPS, enhancing his multidisciplinary expertise. Recognized with several awards such as the Department of Atomic Energy Doctoral Fellowship, Gold Medals in M.Tech and B.Tech, and other academic honors, he stands as an exemplar of academic and research excellence in Plasma Physics. His research skills encompass advanced simulation tools like COMSOL Multiphysics and HOMER Pro, alongside programming in MATLAB, C++, and Python key competencies for modeling and experimentation in Plasma Physics. His continuous contribution to Plasma Physics research highlights his commitment to innovation and scientific progress. Google Scholar profile of 4 Citations, 1 h-index, 0 i10 index.

Profile: Google Scholar

Featured Publications

1. Kshirsagar-Deshpande, V., Patel, T., Abbas, A., Bhatt, K., Bhalerao, R., & Shah, J. (2020). Vehicle tracking using morphological properties for traffic modelling. 2020 IEEE India Geoscience and Remote Sensing Symposium (InGARSS), 98–101.

2. Patel, T., Vyas, H. D., Jana, M. R., Chaudhuri, P., & Baruah, U. K. (2025). Friction welding of ETP-Cu plate to SS304L round bar: An experimental study on asymmetrical dissimilar metal joints. Fusion Science and Technology, 81(1), 45–60.

3. Kumar, M., Swain, D., Raval, Z., & Patel, T. (2023). Machine learning based approach for metaphoric investigation of ground water quality. AIP Conference Proceedings, 2981(1), 020031.

4. Patel, T., Patel, T., Jana, M. R., & Baruah, U. K. (2026). Computational fluid dynamics study with heat transfer inside the embedded cooling channels for prototype ion extractor grid-1 and comparison with experimental results. Fusion Engineering and Design, 222, 115453.

5.Patel, T., Vyas, H. D., Jana, M. R., Chaudhuri, P., Bhope, K. S., Mehta, M., ... & Baruah, U. K. (2025). Characterization and integrity assessment of friction-welded joints between ETP-Cu and SS304L for fusion applications. Fusion Science and Technology, 1–29.

Dr. Aman Bhatia | Plasma Physics | Best Researcher Award

Published on by Physicist Particle

Dr. Aman Bhatia | Plasma Physics | Best Researcher Award

Postdoctoral Fellow | Institute for Plasma Research | India

Dr. Aman Bhatia, a distinguished researcher in Plasma Physics, has demonstrated outstanding contributions to the field through her extensive work on laser–plasma interactions, nonlinear optics, and theoretical plasma modeling. With a Doctorate in Plasma Physics from Dr. B. R. Ambedkar national institute of technology, jalandhar, Her currently serves as a postdoctoral fellow at the institute for plasma research, ahmedabad. Her Plasma Physics expertise is reflected in numerous publications across reputed journals like Physics of Plasmas, Optik, and The European Physical Journal Plus. Dr. Bhatia’s professional experience encompasses both teaching and advanced computational research, with proficiency in Plasma Physics simulation tools such as SMILEI, MATLAB, Mathematica, and Python. Her active engagement in international conferences and workshops, including ICTP–IAEA Fusion Energy Schools, has further deepened her understanding of Plasma Physics phenomena and their applications. Recognized for her excellence, Her has received several prestigious awards, including Best Poster Presentation honors and an Outstanding Research Award from NIT Jalandhar. Her research interests lie in nonlinear wave propagation, second harmonic generation, and terahertz radiation in Plasma Physics systems. With exceptional research skills in analytical modeling, computational simulations, and laser–plasma coupling studies, Dr. Bhatia continues to advance the boundaries of Plasma Physics with innovative theoretical insights and practical relevance. Her dedication, scholarly rigor, and academic achievements mark him as a rising figure in modern Plasma Physics. 64 Citations, 9 Documents, 5 h-index.

Profiles: Scopus | Google Scholar

Featured Publications

1. Bhatia, A., Walia, K., & Singh, A. (2021). Influence of self-focused Laguerre–Gaussian laser beam on second harmonic generation in collisionless plasma having density transition. Optik, 245, 167747.

2. Bhatia, A., Walia, K., & Singh, A. (2021). Second harmonic generation of intense Laguerre–Gaussian beam in relativistic plasma having an exponential density transition. Optik, 244, 167608.

3. Bhatia, A., Walia, K., & Singh, A. (2022). Laguerre–Gaussian laser beam guiding and its second harmonics in plasma having density ramp. Physics of Plasmas, 29(9).

4. Kad, P., Choudhary, R., Bhatia, A., Walia, K., & Singh, A. (2022). Study of two cross focused Bessel–Gaussian laser beams on electron acceleration in relativistic regime. Optik, 271, 170117.

5. Bhatia, A., Jangir, N., Kad, P., Walia, K., & Singh, A. (2022). Second harmonic generation of zeroth-order Bessel–Gaussian laser beam in collisionless plasma. Optik, 269, 169867.