Prof. Dr. Galina Makeeva | Best Researcher Award

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Prof. Dr. Galina Makeeva | Best Researcher Award

Penza State University | Russia

Dr. Galina Makeeva is a highly accomplished physicist and researcher at the University of Penza, Russian Federation, specializing in terahertz photonics, graphene plasmonics, and magneto-optical materials. With an impressive research portfolio of 115 scientific publications, her studies have garnered 236 citations and an h-index of 8, demonstrating her sustained impact in the field. Dr. Makeeva’s research focuses on the theoretical modeling and numerical simulation of electromagnetic wave interactions with advanced nanostructures such as graphene nanoribbons, metasurfaces, and nonlinear semiconductor systems. Her pioneering work on magnetically tunable and electrically controllable metasurfaces has opened new pathways for developing next-generation terahertz and mid-infrared optoelectronic devices. She has published extensively in top-tier journals including Optics and Spectroscopy, Technical Physics, and the Journal of Experimental and Theoretical Physics. Through her contributions, Dr. Makeeva has advanced the understanding of graphene-based photonic platforms, bridging the gap between classical electromagnetics and emerging nanophotonic technologies. Her innovative and interdisciplinary research continues to shape the evolution of high-frequency devices and photonic materials. Recognized for her academic excellence and scientific rigor, Dr. Makeeva remains at the forefront of developing functional materials for next-generation communication and sensing technologies.

Profile : Scopus

Featured Publications

Makeeva, G. S. (2025). Magnetoplasmonic effects induced by diffraction of terahertz waves on magnetically biased graphene metasurfaces. Journal of Experimental and Theoretical Physics.

Makeeva, G. S. (2025). Tunable polarization magnetooptical effects at scattering of terahertz radiation from graphene nanoribbon gratings in a magnetic field. Journal of Experimental and Theoretical Physics.

Makeeva, G. S. (2025). Numerical simulation of scattering patterns of terahertz waves on graphene nanoribbon arrays in a magnetic field. Technical Physics.

Makeeva, G. S. (2025). Method of nonlinear autonomous blocks with Floquet channels for simulation of nonlinear microwave devices with distributed interaction. Technical Physics.

Makeeva, G. S. (2025). Numerical investigation of the diffraction field of terahertz waves on graphene nanoribbons upon applying a magnetic field. Technical Physics.

Mr. Abdul Majeed | Best Researcher Award

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Mr. Abdul Majeed | Best Researcher Award

University of Malakand | Pakistan

Dr. Abdul Majeed is a researcher at the Department of Physics, University of Malakand, specializing in quantum optics, quantum computation, mathematical physics, and plasmonics. His Google Scholar profile records an h-index of 3 with 30 citations across 11 documents. His research explores the coherent control of structured light, soliton dynamics, exceptional surfaces, tunneling effects, and Goos–Hänchen shifts in multi-level atomic and chiral media. He has co-authored several recent papers in leading journals such as Chaos, Solitons & Fractals, Applied Physics B, AIMS Mathematics, Scientific Reports, and Advanced Theory and Simulations, focusing on the theoretical modeling and manipulation of nonlinear optical and quantum phenomena. Dr. Majeed’s academic background includes studies in physics and applied mathematics, and he has experience in both research and teaching within higher education. His work demonstrates a strong grasp of light–matter interactions, plasmonic behavior, and quantum control mechanisms, contributing to the advancement of quantum photonics and optical communication technologies. Although major awards are not yet documented, his growing publication record and international collaborations highlight his emerging status as a promising physicist in theoretical and computational optics. In summary, Dr. Majeed’s contributions are expanding the understanding of quantum coherence and structured-light manipulation in complex media.

Profile : Google Scholar 

Featured Publications

Ullah, I., Majeed, A., & Ali, A., Khan, Z. A. (2025). Reflection and transmission solitons via high magneto optical medium. Chaos, Solitons & Fractals, 191, 115881.

Khan, Z. A., Majeed, A., Ullah, I., & Ali, A. (2025). Coherent generation of superluminal and subluminal propagation of structured light in five level atomic medium. Applied Physics B, 131(2), 30.

Ullah, I., Majeed, A., Dalam, M. E. E., Almazah, M. M. A., & Ali, A. (2025). Coherent manipulation of tunneling and super Gaussian based Goos–Hänchen shift in five level chiral atomic medium. Applied Physics A, 131(2), 89.

Emam, W., Majeed, A., Ali, Z., Ali, A., & Pamucar, D. (2025). Periodic dark and bright optical soliton dynamics in atomic medium governed by control fields of Milnor polynomial and super-Gaussian beam. International Journal of Theoretical Physics, 64(5), 141.

Majeed, A., Ullah, I., Alduais, F. S., Al Bossly, A., Bossly, R., & Ali, A. (2025). Investigation of rotary photon drag of generated structured light in a five level atomic medium. Advanced Theory and Simulations, 8(5), 2401307.

Assoc. Prof. Dr. Jonas Duarte | Top Applied Physicist Award

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Assoc. Prof. Dr. Jonas Duarte | Top Applied Physicist Award

Federal University Western of Pará | Brazil

Dr. Jonas Marinho Duarte earned both a Licenciatura and a Bachelor’s degree in Physics from the Federal University of Pará (UFPA), followed by an M.Sc. (2019–2021) and a Ph.D. (2021–2025) in Electrical Engineering from the same institution. Since July 2025, he has served as a Professor in the Faculty of Mining Engineering at the Federal University of Western Pará (UFOPA) in Santarém, Brazil. His research focuses on two-dimensional carbon allotropes, nanoelectronics and electronic transport modulation, terahertz and microstrip antenna design using novel graphene-like patch resonators, and active learning methodologies in solar-energy education and environmental outreach. He has published peer-reviewed articles in journals such as Optical & Quantum Electronics, Physica E, and Computational Condensed Matter. Jonas Duarte’s current (unverified) research metrics include an h-index of approximately 0, around 5 published documents, and about 2 citations. He is developing a strong early-career, multidisciplinary profile that bridges physics, electrical engineering, and materials science through both teaching and research. In summary, Jonas Duarte is an emerging scholar-educator who actively connects advanced materials modeling with device engineering, positioning himself for significant future impact.

Profile : Orcid 

Featured Publications

Cardoso, D. H., Miranda, I. R. S., Mota, E. A. V., Duarte, J. M., dos Santos da Silva, S. J., da Silva, C. A. B., & Del Nero, J. (2025). Numerical implementation of phagraphene as patch resonator for a microstrip antenna. Optical and Quantum Electronics, 57(84), Article 08404. https://doi.org/10.1007/s11082-025-08404-9

Quaresma, L. C., Ferreira, D. F. S., Duarte, J. M., Moreira, M. M., da Silva, C. A. B. Jr., & Del Nero, J. (2025, December). Eigenchannel visualization and transition-voltage spectroscopy in two-dimensional C57 allotrope. Computational Condensed Matter, 36, e01169. https://doi.org/10.1016/j.cocom.2025.e01169

Quaresma, L. C., Duarte, J. M., Ferreira, D. F. S., da Silva, C. A. B. Jr., & Del Nero, J. (2025, October). Electronic transport modulation in C57: A path toward carbon-based logic and switching devices. Physica E: Low-Dimensional Systems and Nanostructures, 163, 116340. https://doi.org/10.1016/j.physe.2025.116340

Duarte, J. M., Santos, J. C. S., Ferreira, D. F. S., Paula, M. V. S., Mota, E. A. V., da Silva, C. A. B., & Del Nero, J. (2025, March). Systematic investigation of a metallic quadrilateral nanoribbon graphene allotrope for application in nanoelectronics. Computational Condensed Matter, 34, e01007. https://doi.org/10.1016/j.cocom.2025.e01007

Duarte, J. M. (2024, November). Metodologias ativas e educação ambiental: Uma revisão integrativa sobre abordagens inovadoras para o ensino de energia solar. Ensino e Tecnologia em Revista, 18(4), 1–15.

Assoc. Prof. Dr. Haiou Wang | Best Researcher Award

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Assoc. Prof. Dr. Haiou Wang | Best Researcher Award

Hangzhou Dianzi University | China

Dr. Haiou Wang is an accomplished Associate Professor at Hangzhou Dianzi University, China, specializing in spintronics and magnetic materials. He earned his Ph.D. in Physics from Nanjing University of Science and Technology in 2013 and has since established a strong academic and research career in condensed matter physics and materials science. Since joining Hangzhou Dianzi University in 2014, he has progressed from Assistant Professor to Associate Professor, contributing significantly to the study of magnetoresistance, magnetic phase transitions, and spin transport phenomena. Dr. Wang has published over 79 scientific documents, accumulating 690 citations with an h-index of 15, reflecting his consistent influence in the field. His notable works include studies on LaMnO₃, BaMnO₃, and Nd₁−ₓSrₓMnO₃ compounds, elucidating their structure–property relationships and magnetotransport mechanisms. Beyond his research contributions, Dr. Wang has served as a Guest Editor and Topic Editor for MDPI journals, demonstrating his leadership within the scholarly community. His research has been supported by the National Natural Science Foundation of China, highlighting his role in advancing materials for next-generation spintronic devices. Dr. Wang continues to pursue innovative research bridging magnetic materials and spintronics, contributing to the future of electronic and energy technologies.

Profiles : Scopus | Orcid 

Featured Publications

Li, J., Wang, H., & Wang, H. (2025). Structure, magnetism, and transport properties in hexagonal LaMnO₃. Journal of Electronic Materials. https://doi.org/10.1007/s11664-025-12473-7

Wang, H., Zhao, B., Tan, W., & Wang, H. (2025). Enhanced stability of lead-free CsSnI₃ perovskite through structural optimization. Journal of Materials Science: Materials in Electronics. https://doi.org/10.1007/s10854-025-15480-w

Wang, H., Li, J., & Wang, H. (2025). Magnetism, magnetoresistance, and temperature coefficient of resistance of the BaMnO₃ compound. Journal of Materials Science: Materials in Electronics. https://doi.org/10.1007/s10854-025-15446-y

Huang, S., Hua, J., Su, K., Yang, L., Wang, H., & Li, C. (2024). Anisotropic magnetoelectric effect in quasi-one-dimensional antiferromagnet Cu₃Mo₂O₉. Applied Physics Letters. https://doi.org/10.1063/5.0243143

Wang, H., Dong, F., Zhao, B., Tan, W., Huang, S., Su, K., Yang, L., & Wang, H. (2024). The colossal magnetoresistance within a wide temperature range in LaMnO₃ compound. Journal of Materials Science: Materials in Electronics. https://doi.org/10.1007/s10854-024-13490-8

Prof. Kazem Jamshidi-Ghale | Best Researcher Award

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Prof. Kazem Jamshidi-Ghale | Best Researcher Award

Azarbaijan Shahid Madani University | Iran

Prof. Kazem Jamshidi-Ghaleh is a distinguished physicist at the Department of Physics, Azarbaijan Shahid Madani University, Tabriz, Iran, with extensive experience in optics, photonics, and nonlinear optical phenomena. He holds a Ph.D. in Physics and has contributed over 50 peer-reviewed publications, accumulating more than 800 citations and an h-index of 19, reflecting his influential research in laser-matter interaction, nonlinear refraction, optical limiting, photonic crystals, and nanostructured thin films. Dr. Jamshidi-Ghaleh’s work spans experimental and theoretical studies on optical bistability, ultrafast laser processing, femtosecond laser interactions with materials, and the optical characterization of nanocomposites and dye molecules. He has led several projects on electrically tunable photonic devices and advanced optical measurement techniques such as moiré deflectometry. His research has been recognized in international journals including Optics Communications, Applied Physics A, and The European Physical Journal D. In addition to his research, he has mentored graduate students and collaborated with multidisciplinary teams on photonic materials and nanostructure applications. Dr. Jamshidi-Ghaleh continues to advance the field of photonics, contributing both fundamental insights and practical applications in optical materials and devices. His achievements highlight his commitment to scientific innovation, education, and the development of photonic technologies.

Profile : Google Scholar

Featured Publications

Jamshidi-Ghaleh, K., Salmani, S., & Ara, M. H. M. (2007). Nonlinear responses and optical limiting behavior of fast green FCF dye under a low power CW He–Ne laser irradiation. Optics Communications, 271(2), 551–554. https://doi.org/10.1016/j.optcom.2007.01.003

Tohidi, T., Jamshidi-Ghaleh, K., Namdar, A., & Abdi-Ghaleh, R. (2014). Comparative studies on the structural, morphological, optical, and electrical properties of nanocrystalline PbS thin films grown by chemical bath deposition using two different … Materials Science in Semiconductor Processing, 25, 197–206. https://doi.org/10.1016/j.mssp.2014.04.003

Jamshidi-Ghaleh, K., & Mansour, N. (2004). Nonlinear refraction measurements of materials using the moiré deflectometry. Optics Communications, 234(1–6), 419–425. https://doi.org/10.1016/j.optcom.2004.01.057

Mansour, N., Jamshidi-Ghaleh, K., & Ashkenasi, D. (2006). Formation of conical microstructures of silicon with picosecond laser pulses in air. Journal of Laser Micro/Nanoengineering, 1, 10.2961. https://doi.org/10.2961/jlmn.2006.1.10

Mohammad-Jafarieh, P., Akbarzadeh, A., Salamat-Ahangari, R., … Jamshidi-Ghaleh, K. (2021). Solvent effect on the absorption and emission spectra of carbon dots: Evaluation of ground and excited state dipole moment. BMC Chemistry, 15(1), 53. https://doi.org/10.1186/s13065-021-00789-1

Mr. Zahid Ullah | Best Researcher Award

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Mr. Zahid Ullah | Best Researcher Award

Islamia College University Peshawar | Pakistan 

Dr. Zahid Ullah is a computational materials scientist currently serving as a Scholar at Qurtuba University of Science and Information Technology, Peshawar, and pursuing his PhD in Physics at Islamia College Peshawar. With an h‑index of 12, over 1,100 citations, and multiple high-impact publications, he has established a strong presence in theoretical and computational condensed matter physics. His research focuses on first-principles calculations, employing density functional theory (DFT) and WIEN2k/CASTEP computational frameworks to investigate the structural, electronic, thermoelectric, and magnetic properties of materials such as spinels (MgGa₂O₄, ZnAl₂O₄) and ternary tellurides (KAlTe₂, KInTe₂). He has contributed significantly to understanding energy‑conversion materials, magnetic semiconductors, and thermoelectric performance, guiding experimental and theoretical developments for sustainable energy solutions and advanced electronic/spintronic applications. Notable publications include studies on high-temperature thermoelectric performance of MgGa₂O₄ and the electronic and magnetic characteristics of KAlTe₂ and KInTe₂. His work integrates materials informatics with computational modeling to predict and optimize material behaviors. Dr. Ullah’s ongoing research aims to design next-generation functional materials, and he is recognized for his early-career contributions to computational materials science. His efforts provide critical insights that bridge fundamental physics with practical applications in energy, electronics, and spintronics.

Profiles : Orcid | Google Scholar

Featured Publications

Ullah, Z., Khan, R., Khan, M. A., Al Otaibi, S., Althubeiti, K., & Abdullaev, S. (2025). High-temperature thermoelectric performance of spinel MgGa2O4 through a first-principles and Boltzmann transport study. Computational Materials Science, 259, 114163. https://doi.org/10.1016/j.commatsci.2025.114163

Ullah, Z., Amir, M., Bazilla, A., Ullah, S., Shahzad, U., Ullah, N., Khan, J., & Gul, S. (2024). Electronic, thermoelectric and magnetic properties of ternary telluride KAlTe2 and KInTe2 from theoretical perspective. Next Research, 1(2), 100077. https://doi.org/10.1016/j.nexres.2024.100077

Khan, M. A., & Ullah, Z. (2025). First-principles study of electronic, structural, and thermoelectric nature. Theoretical Chemistry Accounts, 144(8), 61. https://doi.org/10.1007/s00214-025-03000-0

Ullah, Z., Khan, M. A., Gul, S., Noman, M., Ullah, S., & Shahab, M. (2025). Remarkable thermoelectric and magnetic properties of anti-perovskite MgCNi3: A pathway to advanced energy conversion and spintronics. Journal of Superconductivity and Novel Magnetism, 38(4), 167. https://doi.org/10.1007/s10948-025-08800-5

Ullah, Z., & Khan, M. A. (2025). First-principles study of ZnAl2O4 for energy applications. International Journal of Modern Physics B, 2550270. https://doi.org/10.1142/S0217979225502704

Prof. Dr. Ayper Boga Pekmezekmek | Best Researcher Award

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Prof. Dr. Ayper Boga Pekmezekmek | Best Researcher Award

Cukurova University | Turkey

Ayper Boğa Pekmezekmek is a distinguished academic and researcher at Çukurova University Faculty of Medicine, Turkey, specializing in physiology, toxicology, and developmental biology. With 3 published documents, 12 citations, and an h-index of 3, her scholarly work reflects a focused contribution to understanding physiological and biochemical mechanisms under environmental and pharmacological stress. She earned her education and research training in biomedical sciences, where she developed expertise in experimental physiology and toxicological studies involving model organisms. Her research primarily investigates the physiological effects of chemical agents on embryonic development and explores the protective biochemical pathways that mitigate these effects. Notably, her publication in Environmental Science and Pollution Research examined the role of L-glutamic acid monosodium salt in reducing lithium-induced developmental toxicity, marking a valuable contribution to environmental and medical toxicology. Through her teaching and research experience, she continues to promote scientific inquiry into the mechanisms of toxicity and protection in living systems. Her work demonstrates an ongoing commitment to improving environmental health and fostering translational research in physiology and toxicology, serving as an inspiration for advancing biomedical safety and sustainable health research

Profiles : Orcid | Scopus

Featured Publications

Boğa Pekmezekmek, A., Emre, M., Tunç, E., Kalay, B., Kocahan, S., Emre, N., & Emre, T. (2024). Exposure to high-molecular-weight polyvinyl chloride alters bacterial diversity in the gut microbiota of the Wistar rat. Rocznik Ochrona Środowiska, 26. https://doi.org/10.54740/ros.2024.038

Emre, M., Karamazi, Y., Emre, T., Avcı, Ç., Aydın, Ç., Ebrahimi, S., & Boğa Pekmezekmek, A. (2024). The effect of 6 GHz radiofrequency electromagnetic radiation on rat pain perception. Electromagnetic Biology and Medicine. https://doi.org/10.1080/15368378.2024.2331134

Müsüroğlu, S., Şahin, L., Kocahan, S., Annaç, E., Tiraşci, N., & Boğa Pekmezekmek, A. (2023). Effect of caffeine on hippocampal memory and levels of gene expression in social isolation stress. International Journal of Developmental Neuroscience. https://doi.org/10.1002/jdn.10292

Boğa Pekmezekmek, A., Emre, M., Erdoğan, Ş., Yılmaz, M. B., Tunç, E., Sertdemir, Y., & Emre, Y. (2022). Effects of high-molecular-weight polyvinyl chloride on Xenopus laevis adults and embryos: The mRNA expression profiles of Myf5, Esr1, Bmp4, Pax6, and Hsp70 genes during early embryonic development. Environmental Science and Pollution Research, 29, 14767–14779. https://doi.org/10.1007/s11356-021-16527-1

Kocahan, S., Akıllıoğlu, K., Şencar, L., Şahin, L., Çevik, Ö. S., Taşkın Güven, E., Güven, C., Boğa Pekmezekmek, A., & Polat, S. (2021). Living with female rats exposed to restraint stress during pregnancy caused depressive-like behavior in male rats and stress-induced apoptosis. International Journal of Developmental Neuroscience, 81(7), 643–654. https://doi.org/10.1002/jdn.10142

Dr. Ahmed Zahia | Best Researcher Award

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Dr. Ahmed Zahia | Best Researcher Award

Benha University | Egypt

Dr. Ahmed Zahia is an Assistant Lecturer in the Department of Mathematics at Benha University, Egypt. He earned his Bachelor of Science in Mathematics from Benha University in 2020 and has been actively engaged in teaching and research since 2020. His research lies at the intersection of applied mathematics and quantum physics, focusing on quantum information, quantum correlations, quantum mechanics, and dynamical systems. With a growing reputation in theoretical and computational quantum studies, Zahia has authored nine research papers in internationally recognized journals such as Scientific Reports, Journal of Physics A, Physica Scripta, Optical and Quantum Electronics, EPJ Quantum Technology, and Thermal Science. His work explores topics including entanglement dynamics, quantum steering, quantum batteries, and information scrambling in multi-qubit and multi-mode systems. His publications have collectively received 27 citations from 20 documents, reflecting an h-index of 3. Zahia is also passionate about science communication, running a YouTube channel dedicated to teaching mathematics. Through his contributions, he continues to advance understanding of quantum information processing and the interplay between entanglement, coherence, and energy transfer in quantum systems, marking him as a promising emerging researcher in applied and theoretical quantum mechanics.

Profiles : Orcid | Google Scholar | Scopus

Featured Publications

Zahia, A. A., Khalil, E., & Al-Awfi, S. (2025). Entanglement and steering of three-mode field in trio coherent states. International Journal of Theoretical Physics, 64(9), 226. https://doi.org/10.1007/s10773-025-06072-9

Zahia, A. A. (2025). Optimizing quantum battery performance: A comparative study of parallel and series charging protocols. Physica Scripta, 100(8), 085501. https://doi.org/10.1088/1402-4896/adee67

Zahia, A. A., Saad, H. M., Ali, S. I., Ahmed, M. M. A., & Obada, A.-S. F. (2025). Quantum information metrics of a multi-level atom interacting with an SU(1,1) quantum amplifier system. EPJ Quantum Technology, 12(1), 90. https://doi.org/10.1140/epjqt/s40507-025-00394-7

Abd-Rabbou, M. Y., Zahia, A. A., Rahman, A. U., & Qiao, C. F. (2025). The limits of quantum information scrambling. Journal of Physics A: Mathematical and Theoretical, 58(25), 255301. https://doi.org/10.1088/1751-8121/ade1b9

Zahia, A. A., Abd-Rabbou, M. Y., & Megahed, A. M. (2025). Entanglement-driven energy exchange in a two-qubit quantum battery. Journal of Physics B: Atomic, Molecular and Optical Physics, 58(6), 065501. https://doi.org/10.1088/1361-6455/adbc56

Assist. Prof. Dr. Fayzullo Nazarov | Best Researcher Award

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Assist. Prof. Dr. Fayzullo Nazarov | Best Researcher Award

Samarkand State University | Uzbekistan

Dr. Fayzullo Nazarov is a distinguished researcher at Sharof Rashidov Samarkand State University, Uzbekistan, recognized for his contributions to artificial intelligence, data science, and computational optimization. With an h-index of 10, 28 publications, and 217 citations across 94 documents, his research demonstrates significant scholarly impact and growing recognition in the field. Dr. Nazarov earned his advanced degrees in computer science and applied mathematics, where he developed a strong foundation in algorithmic modeling, neural networks, and machine learning applications. His academic and professional experience centers on the intelligent management of data systems, optimization of distribution mechanisms, and neural network ensemble methodologies. Dr. Nazarov’s recent works, including studies on effective distribution determination using neural network ensembles and machine learning-based data storage optimization, highlight his innovative approach to integrating AI with intelligent system design. He actively collaborates with international researchers to advance computational intelligence and smart data technologies. Throughout his career, Dr. Nazarov has received multiple academic recognitions for excellence in research and publication. His dedication to advancing AI-driven optimization techniques positions him as a leading researcher in intelligent systems and computational innovation, with ongoing contributions to the digital transformation of data management and predictive modeling.

Profiles : Google Scholar | Scopus

Featured Publications

khatov, A. R., Nazarov, F. M., & Rashidov, A. (2021). Mechanisms of information reliability in big data and blockchain technologies. In Proceedings of the 2021 International Conference on Information Science and Communications.

Akhatov, A. R., Nazarov, F. M., & Rashidov, A. (2021). Increasing data reliability by using big data parallelization mechanisms. In Proceedings of the 2021 International Conference on Information Science and Communications.

Rashidov, A., Akhatov, A., & Nazarov, F. (2023). The same size distribution of data based on unsupervised clustering algorithms. In The International Conference on Artificial Intelligence and Logistics.

Akhatov, A. R., Sabharwal, M., Nazarov, F. M., & Rashidov, A. (2022). Application of cryptographic methods to blockchain technology to increase data reliability. In 2nd International Conference on Advance Computing and Innovative Technologies in Engineering.

Dagur, A., Shukla, D. K., Makhmadiyarovich, N. F., & Rustamovich, A. A. (2024). Artificial intelligence and information technologies: Proceedings of the 1st International Conference on Artificial Intelligence and Information Technologies (ICAIIT 2023). CRC Press.

Dr. Ashish Varma | Young Scientist Award

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Dr. Ashish Varma | Young Scientist Award

K. N. Government P. G. College, Gyanpur, Bhadohi | India

Dr. Ashish Varma is an accomplished physicist and Assistant Professor at K. N. Government P. G. College, Gyanpur, Bhadohi, India. He earned his Ph.D. in Physics from the University of Allahabad in 2022 and has established himself as an emerging researcher in plasma physics, laser–matter interaction, and nanostructured materials. With 31 publications, over 447 citations from 117 documents, and an h-index of 13, Dr. Varma’s work demonstrates significant impact in nonlinear laser-plasma interactions, electron Bernstein wave excitation, and nanocluster plasma dynamics. His recent studies focus on laser beam–assisted plasma heating, surface plasma wave generation, and nonlinear absorption in arrays of vertically aligned carbon nanotubes. Dr. Varma has contributed to leading journals such as Optik, Laser Physics, Journal of the Korean Physical Society, and Optical and Quantum Electronics. He has also explored computational condensed matter physics, investigating electronic, structural, and optical properties of advanced materials. A recipient of the UGC Junior Research Fellowship (JRF), he continues to advance fundamental understanding of laser-plasma coupling phenomena with applications in photonics and nanotechnology. Through his active research, Dr. Varma is contributing to the development of next-generation optical and plasma-based materials and technologies.

Profile: Google Scholar | Orcid | Scopus

Featured Publications

Varma, A., Kumar, A., Mishra, S. P., Kumar, A., & Kumar, A. (2025). Surface plasma wave aided Laguerre–Gaussian laser beam second harmonic generation in arrays of vertically aligned carbon nanotube over metal surface. Journal of Laser Applications, 37(8), 7–12. https://doi.org/10.2351/7.0001819

Vishwakarma, M. K., Mishra, S. P., Kumar, A., Kumar, A., & Varma, A. (2025). Enhanced electron heating by electron plasma wave assisted beat wave of two different profile laser beams in magnetized collisional plasma with density rippled. Journal of the Korean Physical Society, 86(7), 1–8. https://doi.org/10.1007/s40042-025-01446-y

Ali, K., Kumar, S., Kumar, A., & Varma, A. (2025). Influence of field optimization property of Hermite cosh-Gaussian laser beam on nonlinear absorption in arrays of vertically aligned cylindrical carbon nanotubes. Radiation Effects and Defects in Solids, 180(4), 245–259. https://doi.org/10.1080/10420150.2025.2484740

Ansari, A., Patel, M. S., Mishra, S. P., Kumar, A., Kumar, A., & Varma, A. (2025). Excitation of large-amplitude electron plasma wave by counterpropagation of two laser beams in spherical nanoparticles. Laser Physics, 35(4), 046001. https://doi.org/10.1088/1555-6611/adc559

Kumar, S., Ali, K., Kumar, A., Kumar, A., Mishra, S. P., & Varma, A. (2025). Langmuir wave-assisted two-photon decay of an amplitude-modulated Gaussian laser beam in rippled density plasma. Arabian Journal for Science and Engineering, 50(1), 112–122. https://doi.org/10.1007/s13369-024-09234-9