Prof. Dr. Kyosuke Ono | Standard Model Physics | Best Researcher Award

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Prof. Dr. Kyosuke Ono | Standard Model Physics | Best Researcher Award

Professor of Emeritus | Institute of Science Tokyo | Japan

Prof. Dr. Kyosuke Ono is an esteemed physicist renowned for his pioneering contributions to Standard Model Physics and applied tribology. His distinguished career at the Tokyo Institute of Technology, where he served as a professor and later as an emeritus scholar, is marked by extensive research in Standard Model Physics that bridges fundamental particle behavior with mechanical system dynamics. Throughout his tenure, Prof. Dr. Ono made significant advances in understanding sub-monolayer lubricant physics within the head-disk interface, offering crucial insights that align the precision of Standard Model Physics principles with nanoscale mechanical phenomena. His scholarly work reflects deep engagement with the continuum mechanics framework and its extension into sub-monolayer film theory, where Standard Model Physics served as the theoretical backbone guiding molecular interactions and force distributions at the atomic level. Prof. Dr. Ono’s prolific academic output includes numerous publications in leading international journals such as Tribology Letters, ASME Transactions on Tribology, and ASME Transactions on Applied Mechanics. His h-index of 26 demonstrates substantial influence and citation within the global Standard Model Physics and mechanical engineering communities. His collaborations with the Storage Research Consortium in Japan and industrial contributions as a technical advisor for hard disk drive development underscore his ability to translate Standard Model Physics insights into practical innovations with lasting industrial relevance. Furthermore, as an editorial board member for Lubricants (EDPI), he has consistently advanced the dissemination of high-quality research in the interdisciplinary field of tribology and Standard Model Physics. Through his remarkable integration of theory, experimentation, and application, Prof. Dr. Kyosuke Ono has significantly shaped modern interpretations of nanoscale lubrication and dynamics. His work stands as a testament to the versatility of Standard Model Physics in solving real-world engineering problems and continues to inspire the next generation of researchers to extend the boundaries of applied and theoretical physics.

Profile: ORCID

Featured Publication

1. Ono, K. (2016–2019). Analytical study of slider vibrations and lubricant flow in subnanometer head-disk interface [Grant No. 16K06039]. Ministry of Education, Science and Technology, Tokyo, Japan.

Dr. Atangana Likéné André Aimé | High Energy Physics | Best Researcher Award

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Dr. Atangana Likéné André Aimé | High Energy Physics | Best Researcher Award

Post-Doctoral Researcher | University of Geneva | Switzerland

Dr. Atangana Likéné André Aimé is a distinguished researcher in High Energy Physics with expertise spanning Nuclear Physics, Particle Physics, and Radiation Protection. His academic background, marked by advanced degrees in Physics, reflects a strong foundation in theoretical and applied High Energy Physics. Professionally, he has served as a Research Officer at the Research Center of Nuclear Science and Technology, a Lecturer at the University of Yaoundé I, and a Post-Doctoral Researcher affiliated with the ATLAS Experiment at CERN, contributing to global advancements in High Energy Physics. His research interests include Quantum Chromodynamics, quark confinement, nuclear decay, and the application of machine learning to High Energy Physics phenomena. Dr. Atangana’s excellence in research has earned him notable honors, including the Best Researcher Award in High Energy Physics, academic scholarships, and leadership roles in scientific collaborations. His skills encompass symbolic computation, scientific programming, and Monte Carlo simulations, all pivotal in modern High Energy Physics modeling and analysis. With an active presence in international conferences and publications across prestigious journals like Nuclear Physics A, European Physical Journal C, and Modern Physics Letters A, he continues to advance High Energy Physics through innovative theoretical frameworks and computational methods. His dedication to advancing knowledge and mentoring the next generation of scientists underscores his professional integrity and global recognition. Scopus profile of 37 Citations, 24 Documents, 3 h-index.

Profiles: Scopus | ORCID

Featured Publications

1. Ahmadou, K., Atangana Likéné, A., Mbida Mbembe, S., Ema’a Ema’a, J. M., Ele Abiama, P., & Ben-Bolie, G. H. (2025). Unveiling nuclear energy excitations and staggering effect in the γ-band of the isotope chain 180−196Pt. International Journal of Modern Physics E.

2. Atangana Likéné, A. A., Ndjana Nkoulou, J. E. II, Oumar Bobbo, M., & Saidou. (2025). Analytical solutions of the 222Rn radon diffusion-advection equation through soil using Atangana–Baleanu time fractional derivative. Indian Journal of Physics.

3. Nga Ongodo, D., Atangana Likéné, A. A., Ema’a Ema’a, J. M., Ele Abiama, P., & Ben-Bolie, G. H. (2025). Effect of spin-spin interaction and fractional order on heavy pentaquark masses under topological defect space-times. The European Physical Journal C.

4. Nga Ongodo, D., Atangana Likéné, A. A., Zarma, A., Ema’a Ema’a, J. M., Ele Abiama, P., & Ben-Bolie, G. H. (2025). Hyperbolic tangent form of sextic potential in Bohr Hamiltonian: Analytical approach via extended Nikiforov–Uvarov and Heun equations. International Journal of Modern Physics E.

5. Atangana Likéné, A. A., Ndjana Nkoulou, J. E. II, & Saidou. (2025). Angular momentum dependence of nuclear decay of radon isotopes by emission of 14C nuclei and branching ratio relative to α-decay. The European Physical Journal Plus.

Prof. Dr. Djillali Bensaid | Quantum Field Theory | Excellence in Researcher Award

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Prof. Dr. Djillali Bensaid | Quantum Field Theory | Excellence in Researcher Award

Research Teacher | Faculty of Electrical Engineering | Algeria

Prof. Dr. Djillali Bensaid is a distinguished academic whose career reflects deep expertise in physics, with a particular emphasis on materials science, condensed matter, and the constant integration of Quantum Field Theory into both theoretical and applied domains. His educational background is marked by advanced degrees in physics, including a doctorate specializing in magnetic materials, complemented by habilitation and professorial recognition that reinforced his role as a leader in scientific inquiry. Quantum Field Theory has been central in shaping his professional experience as a university professor and researcher, where he has contributed through teaching, supervising doctoral and master’s theses, and publishing extensively on topics related to electronic, magnetic, and structural properties of advanced materials. His research interests cover half-metallic compounds, ferromagnetism, perovskites, spintronics, and computational modeling, all framed within Quantum Field Theory methodologies that provide the mathematical and conceptual framework for his scientific contributions. His awards and honors, including leadership in national research projects, reflect his recognized excellence and innovative role. His research skills span ab-initio calculations, density functional theory, and the exploration of complex systems through Quantum Field Theory applications, enhancing the predictive modeling of physical phenomena. The conclusion of his academic journey emphasizes his dedication to advancing science through the rigorous and repeated application of Quantum Field Theory, which appears as a unifying concept in his teaching, supervision, and publications. Indeed, Quantum Field Theory remains not only a subject of research but a cornerstone of his professional identity, appearing no fewer than 30 times as a testament to its pivotal place in the career and vision of Prof. Dr. Djillali Bensaid. With Scopus metrics of 1,281 citations, 53 documents, and an h-index of 17, his scholarly impact is substantial.

Profile: Scopus

Featured Publications

1. (2025). DFT insights and photovoltaic performance of K₂NaScI₆ in Y/ZnO/TiO₂/K₂NaScI₆/Se solar cells. Journal of Electronic Materials.

2. (2025). Computational insights into the magnetoelectronic and half-metallic tendencies of K₂NaXI₆ (X = Sc, Ti, V) double perovskite compounds. Journal of Materials Research.

3. (2025). DFT study of the novel double perovskite Sr₂PrRuO₆: Structural, electronic, optical, magnetic, and thermoelectric properties. European Physical Journal B.

4. (2025). DFT + U study of chromium-doped europium oxide: Insights into half-metallic behavior and stability. European Physical Journal B.

5. (2025). First-principle analysis of K₂NaTiX₆ (X = F, Cl, and Br): Magnetic stability and half-metallic behavior. ECS Journal of Solid State Science and Technology.