Assoc Prof Dr. Emmanuel Adeyefa | Theoretical Physics | Editorial Board Member

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Assoc Prof Dr. Emmanuel Adeyefa | Theoretical Physics | Editorial Board Member

Federal University Oye Ekiti | Nigeria

Dr. Emmanuel Adeyefa is an experienced academic and administrator with extensive service in university departments, faculty committees, and accreditation panels. He has served in various leadership roles, including Acting Head of Department, Postgraduate Coordinator, Faculty Committee Chair, and Course Coordinator for several undergraduate and postgraduate mathematics courses. His teaching portfolio covers a wide range of advanced mathematical fields such as numerical analysis, fluid dynamics, analytical dynamics, real analysis, vector and tensor analysis, and mathematical methods. He has worked in multiple higher institutions, contributing to curriculum development, accreditation activities, academic leadership, and student disciplinary processes. He has actively participated in national and international conferences, presenting research in numerical methods, cryptography, differential equations, and applied mathematics. Dr. Adeyefa has supervised numerous undergraduate, MSc, and PhD research projects and serves as an external examiner in reputable universities. He is a member of several professional mathematical societies and contributes to scholarly publishing through peer review for multiple journals. His community service includes election duties and examining roles with national examination bodies. His research and academic activities span theoretical physics, high-energy physics, ordinary differential equations, numerical algorithms, and related mathematical applications.

Profiles: Scopus | Orcid | Google Scholar  

Featured Publications

Enoch, O. O., Adeyefa, E. O., & Alakofa, C. O. (2025). A three-step numerical method for solving second-order initial value problems using trigonometric–polynomial basis function. FUOYE Journal of Engineering and Technology, 10(1), 171–177.

Omole, E., Adeyefa, E. O., Apanpa, O., Ayodele, V. I., Amoyedo, M., & Emadifar, F. (2024). Unveiling the power of implicit six-point block scheme: Advancing numerical approximation of two-dimensional PDEs in physical systems. PLOS ONE, 19(5), 1–26.

Adeyefa, E. O., James, A. A., Olagunju, A. S., & Joseph, F. L. (2024). Development of a block method for solving multiple order ODEs. International Journal of Mathematics in Operational Research, 29(1), 51–65.

Omole, E. O., Adeyefa, E. O., Ayodele, V. I., Shokri, A., & Wang, Y. (2023). Ninth-order multistep collocation formulas for solving models of PDEs arising in fluid dynamics: Design and implementation strategies. Axioms, 12(9), 891.

Adeyefa, E. O., Omole, E. O., & Shokri, A. (2023). Numerical solution of second-order nonlinear partial differential equations originating from physical phenomena using Hermite-based block methods. Results in Physics, 46, 106270.

Dr. Ramiro Quiroga | Global Energy Awards | Best Researcher Award

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Dr. Ramiro Quiroga | Global Energy Awards | Best Researcher Award

La Fe University and Polytechnic Hospital | Spain

Dr. Ramiro Quiroga is a highly experienced medical professional specializing in Gynecology, Obstetrics, and Clinical Analysis, with a PhD in Medicine from the University of Valencia. Accredited in Human Genetics by the Spanish Association of Human Genetics, his main expertise lies in prenatal diagnosis and the application of genetics in human reproduction. He serves as a consultant for the Orphanet Spain Network for Rare Diseases and as a member of expert committees for FEDER and the National Commission on Assisted Human Reproduction. In addition to his clinical practice at Hospital Universitario y Politécnico La Fe, he contributes to teaching and research at the University of Valencia, with numerous publications, book chapters, and conference presentations. Fluent in Spanish and English, Dr. Ramiro Quiroga combines his medical, academic, and research experience to advance the fields of human genetics and prenatal medicine.

Profile: Orcid

Featured Publications

S. Menao Guillén, L. Pedrola, C. Orellana, M. Roselló, M. Arruebo, C. Lahuerta Pueyo, M. Sobreviela Laserrada, B. Marcos, J. Pascual Mancho, J. V. Cervera, et al. (2025). Clinical utility of opportunistic genome-wide cfDNA prenatal screening in intermediate-risk pregnancies. Genes.

Vendrell, X., Abulí, A., Serra, C., Guillén, J. J., Rueda, J., García-Planells, J., Santos-Simarro, F., Quiroga, R., Abellán, F., Oancea-Ionescu, R., et al. (2025). Population-based genetic carrier screening: A consensus statement from the Spanish societies AEGH, AEDP, ASEBIR, SEAGEN, SEF, and SEGCD. European Journal of Human Genetics.

Pedrola Vidal, L., Roselló Piera, M., Martín-Grau, C., Rubio Moll, J. S., Gómez Portero, R., Marcos Puig, B., Cervera Zamora, J. V., Quiroga, R., & Orellana Alonso, C. (2024). Prenatal genome-wide cell-free DNA screening: Three years of clinical experience in a hospital prenatal diagnostic unit in Spain. Genes.

Martín-Grau, C., Orellana Alonso, C., Roselló Piera, M., Pedrola Vidal, L., Llorens-Salvador, R., Quiroga, R., Marín Reina, P., Rubio Moll, J. S., Gómez Portero, R., & Martínez-Castellano, F. (2023). Expanding the phenotype of PIGP deficiency to multiple congenital anomalies-hypotonia-seizures syndrome. Clinical Genetics.

Dr. Wenfu Situ | Computational Particle Physics | Best Researcher Award

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Dr. Wenfu Situ | Computational Particle Physics | Best Researcher Award

Technical University of Denmark | Denmark

Dr. Wenfu Situ is a PhD researcher in Engineering at the Technical University of Denmark (DTU), specializing in multiscale thermal science and nanoscale heat transfer under the supervision of Prof. Jens Honoré Walther. His research integrates molecular dynamics simulations, theoretical modeling, and multiphysics experiments to explore heat dissipation mechanisms in advanced energy and electronic systems. He has served as a peer reviewer for top-tier journals such as Applied Energy and presented his work at prestigious international conferences. Dr. Situ has led multiple projects on nanoscale heat transport, micro thermal management, and phase change materials, achieving notable advances in thermal regulation and interfacial heat transfer optimization. His research outcomes include several publications, patents, and national awards, including the China Telecom Fei Young Award and Gold Award in the Challenge Cup Entrepreneurship Competition. With strong expertise in computational fluid dynamics, thermal management design, and experimental analysis, Dr. Situ is dedicated to advancing high-performance thermal systems for sustainable energy and next-generation technologies.

Profile:  Scopus | Orcid | Google Scholar

Featured Publications

Situ, W., Zambrano, H. A., & Walther, J. H. (2025). Effects of electric field on interfacial heat transfer in an electrolyte copper–water system. Applied Thermal Engineering, 279, 127477.

Situ, W., Zambrano, H. A., & Walther, J. H. (2024). Water nanofilm boiling on a copper surface in the presence of dissolved air. Applied Thermal Engineering, 244, 122697.

Situ, W., Zambrano, H. A., & Walther, J. H. (2022). The effect of air solubility on the Kapitza resistance of the copper–water interface. Journal of Molecular Liquids, 366, 120049.

Lv, Y., Situ, W., Zhang, G., et al. (2018). A novel nanosilica-enhanced phase change material with anti-leakage and anti-volume-change properties for battery thermal management. Energy Conversion and Management, 163, 250–259.

Situ, W., Zhang, G., et al. (2017). A thermal management system for rectangular LiFePO₄ battery module using novel double copper mesh–enhanced phase change material plates. Energy, 141, 613–623.

Angela Foerster | Theoretical Advances | Women Researcher Award

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Prof. Angela Foerster | Theoretical Advances | Women Researcher Award

Physica Institute Federal University of Rio Grande do Sul | Brazil

Prof. Angela Foerster is a distinguished theoretical physicist recognized internationally for her expertise in integrable systems and quantum many-body physics. She serves as a Full Professor of Physics at the Federal University of Rio Grande do Sul (UFRGS), Brazil, and is also the Head of the Group of Mathematical Physics. Her career spans decades of pioneering research in quantum field theory, quantum entanglement, and mathematical methods in physics. She has published extensively in top-tier journals and contributed numerous book chapters. Known for her interdisciplinary collaborations and scientific leadership, she is also a respected speaker at international conferences. Prof. Foerster’s work bridges complex quantum systems with practical applications in quantum control and technologies, making her a prominent voice in the global theoretical physics community.

Profiles

Scopus
Orcid
Google scholar

Education

Prof. Foerster began her academic journey with a Bachelor of Science in Physics at UFRGS, where she developed a strong foundation in theoretical physics and mathematics. She pursued her Master’s degree at the same institution, focusing on advanced topics in quantum mechanics. Her academic excellence led her to complete her Ph.D. in Physics at Freie Universität Berlin, Germany, where she specialized in integrable systems and quantum models. Throughout her academic training, she gained expertise in exact solvability, algebraic structures, and field theory. This solid educational background laid the groundwork for her future contributions to mathematical physics and quantum technologies, and established her as a leading figure in the study of strongly correlated systems.

Professional Experience

Prof. Foerster has served in various key academic positions over her career. At UFRGS, she progressed from Associate Professor to Full Professor of Physics, and she currently leads the Group of Mathematical Physics. She has held visiting positions at prestigious institutions, including the University of Queensland, ANU Canberra, Max Planck Institute, and FU Berlin. Her global academic engagements have fostered significant international collaborations in quantum physics and mathematical methods. She has delivered numerous invited talks and colloquia at major international conferences and institutes, reflecting her active involvement in shaping contemporary research. Her leadership within committees, editorial panels, and academic boards further showcases her influence in both research and institutional development.

Awards and Honors

Prof. Foerster’s achievements have been acknowledged through several academic distinctions and prestigious invitations. She is a member of advisory and program committees for renowned journals and international conferences, including the Journal of Physics A: Mathematical and General and ANZAMP. She has served as Head of the Mathematical Physics Group and has been part of key academic boards and selection committees. Her consistent role as an invited speaker at global scientific gatherings underscores the respect she commands in the field.

Research Focus

Prof. Foerster’s research centers on integrable quantum systems, quantum entanglement, and algebraic structures underlying strongly correlated matter. She is especially known for her work on Bethe ansatz techniques, spin chains, cold atoms, and few-body quantum dynamics. Her studies often explore the interface between quantum chaos and solvability, providing insights into fundamental phenomena such as tunneling and quantum control. She has also contributed to the understanding of superintegrable networks and atomtronic systems. Her approach blends deep mathematical formalism with physical applicability, often contributing to advancements in quantum simulation and low-dimensional quantum systems. Her work remains influential in the development of quantum technologies and non-equilibrium quantum physics.

Notable Publications

High-fidelity transfer of entangled states on a quantum turntable

Authors: L.H. Ymai, K.W. Wilsmann, A.P. Tonel, A. Foerster, J. Links
Journal: Newton
Year: 2025

Subtle nuances between quantum and classical regimes

Authors: Karin Wittmann Wilsmann, Erick R. Castro, Itzhak Roditi, Angela Foerster, Jorge G. Hirsch
Journal: Chaos: An Interdisciplinary Journal of Nonlinear Science
Year: 2025

Exact spectral function and nonequilibrium dynamics of the strongly interacting Hubbard model

Authors: Ovidiu I. Pâţu, Andreas Klümper, Angela Foerster
Journal: Physical Review B
Year: 2024

Quantum-classical correspondence in a triple-well bosonic model: From integrability to chaos

Authors: Erick R. Castro, Karin Wittmann W., Jorge Chávez-Carlos, Itzhak Roditi, Angela Foerster, Jorge G. Hirsch
Journal: Physical Review A
Year: 2024

Occupancy probabilities in superintegrable bosonic networks

Authors: Lachlan Bennett, Angela Foerster, Phillip S. Isaac, Jon Links
Journal: Nuclear Physics B
Year: 2024

Conclusion

Prof. Angela Foerster is a leading authority in integrable systems and quantum many-body physics. With a global academic presence, influential publications, and extensive service to the scientific community, she represents the ideals of excellence, collaboration, and innovation in theoretical physics. Her ongoing contributions continue to shape emerging fields in quantum technology, and she is widely regarded as an inspirational figure for women in science and academia.

Yan Jun | Quantum Field Theory | Best Researcher Award

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Dr. Yan Jun | Quantum Field Theory | Best Researcher Award

Sichuan Normal University | China

Professor Jun Yan is a distinguished theoretical physicist known for his profound contributions to mathematical physics, particularly in quantum field theory, string theory, and gravity. His academic career reflects a deep commitment to exploring fundamental aspects of the universe through rigorous mathematical frameworks. With a solid foundation in functional integration and quantum group methods, he has developed innovative models addressing phenomena in black holes, condensed matter systems, and noncommutative field theories. As a professor of theoretical mathematical physics, he has published extensively in reputable journals and collaborated internationally. His expertise extends beyond research, contributing to academic mentorship and scholarly exchange at renowned institutions. His scholarly influence is marked by a consistent pursuit of theoretical depth and originality, making him a respected figure in contemporary high-energy and gravitational physics.

Profile

Scopus

Education

Professor Jun Yan earned his PhD in Theoretical Mathematical Physics, where his dissertation focused on the application of functional integration and quantum group methods in superconducting theory. His academic training emphasized a rigorous approach to theoretical modeling, mathematical structures, and quantum field theory applications. This strong foundation empowered him to tackle complex problems in areas such as black hole thermodynamics, conformal field theory, and condensed matter analogs. His educational background combined analytical methods and abstract mathematical formalism, enabling him to build a career rooted in deep theoretical insights. He was also a visiting scholar at a prominent mathematical institute, where he engaged with leading researchers in foundational physics. His academic path laid the groundwork for a distinguished career, combining advanced mathematics with physical intuition in novel and impactful ways.

Academic Experience

Professor Jun Yan has held a longstanding academic position in theoretical mathematical physics at a leading university. His teaching and research span diverse topics, including string sigma models, gravity corrections in field theories, and phonon behavior in analog black holes. Over the course of his career, he has published extensively on topics such as Ricci flows, sine-Gordon–Thirring models, and phase stability in vector field theories. He has mentored graduate students, guided PhD research, and contributed to the development of advanced physics curricula. His time as a visiting scholar further enriched his exposure to global research communities. His academic environment has consistently fostered inquiry, and his active participation in collaborative theoretical projects has made him a vital contributor to both teaching and frontier-level research in high-energy and gravitational physics.

Awards and Honors

Professor Jun Yan has earned recognition in the field of theoretical physics for his extensive contributions to fundamental research. His published work in prominent journals such as General Relativity and Gravitation, Theoretical and Mathematical Physics, and Modern Physics Letters underscores his academic excellence. While formal award listings are not explicitly detailed, his sustained scholarly output, international collaborations, and citations reflect high professional esteem. His research has been highlighted in discussions on quantum gravity, acoustic black holes, and Ricci flow solutions areas at the frontier of theoretical exploration. His role in contributing to rigorous mathematical physics places him in the circle of academics often honored for their analytical depth and theoretical innovation. His legacy is enriched through impactful publications and lasting academic influence across various sub-disciplines of physics.

Research Focus

Professor Jun Yan’s research is grounded in the rigorous mathematical formulation of quantum field theory, string theory, and gravitational models. He has explored the applications of functional integrals in nontrivial geometries, examining phase transitions, energy density fluctuations, and phonon dynamics in both cosmological and condensed matter contexts. His work on Ricci flows and sigma models offers significant insight into string-theoretic frameworks and black hole analogs. A notable thread in his research is the treatment of noncommutative field theories and the elimination of divergences through gravitational mechanisms. He integrates techniques from statistical field theory, conformal symmetry, and solitonic structures to model quantum systems. His theoretical contributions bridge high-energy physics with mathematical rigor, offering novel perspectives on long-standing problems in modern theoretical physics.

Notable Publications

  • Fermi Condensation Flows Induced by Ricci Flows in the String σ Model
    Authors: Jun Yan
    Journal: Modern Mathematical Physics
    Year: 2025

  • Hamiltonian Mapping and Quantum Perturbation Equations in the Point Matter Black Hole and Noncommutative Black Hole Models
    Authors: Jun Yan
    Journal: Theoretical and Mathematical Physics
    Year: 2024

  • Higgs Phonon: Conformal Phonon and Hawking Temperature in a Two-Dimensional Acoustic Black Hole Model
    Authors: Jun Yan
    Journal: General Relativity and Gravitation
    Year: 2023

  • The Cigar Soliton and the Ricci Flows Perturbation Solutions in the Two-Dimensional String σ Model
    Authors: Jun Yan
    Journal: Theoretical and Mathematical Physics
    Year: 2023

  • Functional Integrals and Phase Stability Properties in the O(N) Vector Field Condensation Model
    Authors: Jun Yan
    Journal: Theoretical and Mathematical Physics
    Year: 2022

Conclusion

Professor Jun Yan stands as a leading figure in theoretical mathematical physics, merging deep mathematical methods with physically meaningful models. His research excellence, international engagement, and academic mentorship reflect a career marked by innovation and intellectual rigor. His contributions continue to advance the boundaries of knowledge in quantum field theory and gravitational systems.

Pabitra Ray | High energy physics | Best Researcher Award

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Mr. Pabitra Ray | High energy physics | Best Researcher Award

Research Scholar at Tata Institute of Fundamental Research (TIFR), Mumbai, India

Pabitra Ray is a young and driven theoretical physicist with a keen interest in the fundamental principles that govern the universe. He completed his M.Sc. in Physics from the International Centre for Theoretical Sciences (ICTS-TIFR), Bengaluru, with first-class distinction, after earning his B.Sc. in Physics from Serampore College, University of Calcutta. His research pursuits lie in the areas of Quantum Field Theory, String Theory, Theoretical Condensed Matter Physics, and Mathematical Physics. He has participated in renowned international conferences such as Strings 2020 and KAWS 2022, enriching his academic foundation through discussions with global experts. Pabitra has also contributed as a teaching student for advanced theoretical courses at ICTS, reflecting his solid grasp of abstract physical concepts and teaching abilities. His rigorous academic journey, combined with his passion for deep theoretical insights, positions him as a promising young researcher in the evolving landscape of fundamental physics.

Author Profile

ORCID

Education

Pabitra Ray’s academic journey is marked by consistent excellence. He earned his Master of Science (M.Sc.) in Physics with first-class distinction from the International Centre for Theoretical Sciences (ICTS-TIFR), Bengaluru one of India’s premier institutions for advanced research in physics. Prior to this, he completed his Bachelor of Science (B.Sc.) in Physics with first class from Serampore College under the University of Calcutta, a foundational period that sparked his interest in theoretical physics. His strong performance in earlier academic stages includes first-division results in both Higher Secondary and Secondary Education from Champdani Nibaran Mukhopadhyay Vidyamandir, Hooghly, under the West Bengal education boards. This consistent academic record highlights his dedication to learning and mastery of complex physics concepts. Throughout his educational path, he has undertaken rigorous coursework, specialized research projects, and actively engaged in scholarly activities, laying a strong groundwork for a successful career in research.

Experience

Pabitra Ray has accumulated academic experience rooted in both coursework and teaching. During his time at ICTS-TIFR, he served as a Teaching Student for the specialized courses String Theory I (Reading) (Aug–Nov 2019) and String Theory II (Reading) (Jan–Apr 2020). These roles underscore his ability to articulate and disseminate intricate theoretical concepts. He has completed research-based course projects on topics such as Born-Infeld Electrodynamics, Calabi-Yau Compactifications, and String Gas Cosmology, which demonstrate his active involvement in foundational and contemporary theoretical inquiries.  His experience reflects a balance between academic rigor, collaborative learning, and knowledge sharing, essential for shaping a capable and adaptable researcher in high-energy theoretical physics.

Awards and Honors

Pabitra Ray has been recognized for academic excellence at multiple stages of his educational journey. Notably, he received the Kali Kinkar Sarkar Memorial Prize in 2018 for securing the highest marks in the B.Sc. Physics Honours program among male students at Serampore College. This award reflects his outstanding performance and dedication to physics during his undergraduate studies. Earlier, in 2014, he was honored with the Hooghly Zilla Parishad Merit Award for achieving the sixth rank among the top ten students in the Higher Secondary Examination in Hooghly district. These accolades underscore his longstanding commitment to academic excellence. In addition to his awards, his selection and participation in internationally reputed conferences and school such as Strings 2020 and the ICTP-PWF program testify to his growing stature as a young theoretical physicist. These honors serve not only as a testament to his achievements but also as encouragement for his future research ambitions.

Research Focus

Pabitra Ray’s research interests span some of the most mathematically rich and conceptually challenging areas of physics. In Quantum Field Theory, he explores the dynamics of particles as fields, unraveling their interactions at high-energy scales. His passion for String Theory drives him to understand particles as one-dimensional strings and study compactifications like Calabi-Yau manifolds and their implications for low-energy physics. In Theoretical Condensed Matter Physics, he investigates collective particle behavior and phase transitions in many-body systems under low-energy conditions, bridging quantum mechanics with emergent phenomena. Additionally, Pabitra has a keen interest in Mathematical Physics, where he explores deep links between abstract mathematics and physical laws. His academic background, coupled with advanced coursework and project-based learning, reinforces his capability to navigate between theory, mathematics, and physical intuition. His goal is to contribute to foundational questions in modern physics using rigorous mathematical tools and novel conceptual frameworks.

Publication

“Wave-form, memory and classical soft scalar theorems,” – Nuclear Physics B

Conclusion 

Pabitra Ray is a dedicated and intellectually capable emerging physicist with strong theoretical foundations in quantum field theory, string theory, and mathematical physics. His academic journey, teaching roles, and research engagement reflect both depth and potential. With further development in formal research output and interdisciplinary collaboration, he is well-poised to become a valued contributor to the field of fundamental physics. He is an excellent candidate for future academic and research recognitions.

 

Emran Eisa Saleh | High energy physics | Best Researcher Award

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Assoc. Prof. Dr. Emran Eisa Saleh | High energy physics | Best Researcher Award

Associate professor in physics, faculty of science, University of Aden | Yemen

Dr. Emran Eisa Saleh is a highly accomplished Associate Professor of Experimental Nuclear Physics at the University of Aden, Yemen. With a career spanning over two decades, he has contributed extensively to the fields of radiation physics, natural radioactivity assessment, and gamma-ray shielding materials. His academic journey and research output demonstrate a deep commitment to scientific advancement and academic excellence in the Arab world and beyond.

Profile

Google scholar

ORCID

📚 Early Academic Pursuits

Dr. Saleh began his academic career with a B.Sc. in Physics from the University of Aden in 1996, laying the foundation for his future in nuclear science. He pursued a Master’s degree in Nuclear Physics at the same university in 2006, focusing on the innovative topic of “Doped polymers as gamma rays dosimetry”. His academic curiosity led him to earn a Ph.D. in Experimental Nuclear Physics from Assiut University, Egypt, in 2012, with a dissertation titled “Studies of natural radioactivity levels in some rocks, soil and water samples from Yemen and Egypt”.

👨‍🏫 Professional Endeavors

Dr. Saleh’s professional journey is marked by progressive academic roles, beginning as a Demonstrator in 2002 and advancing to Assistant Lecturer, Lecturer, and Associate Professor by 2017. He has held key positions such as Vice Dean for Academic Affairs and Head of the Physics Department at the University of Aden. From 2019 to 2021, he expanded his research network during a Postdoctoral Fellowship at Ain Shams University, Egypt.

🔬 Contributions and Research Focus

Dr. Saleh’s research is primarily centered on natural and anthropogenic radioactivity, radiation dosimetry, environmental radiological hazards, and nuclear shielding materials. His pioneering work includes studies on radiological impacts of building materials, soil contamination, hot spring water radioactivity, and novel glass systems for radiation protection. He has authored over 35 internationally recognized papers, many published in peer-reviewed journals such as Radiation Physics and Chemistry, Journal of Geochemical Exploration, and Acta Geophysica.

🌍 Impact and Influence

With a Google Scholar H-index of 13 and an i10-index of 15, Dr. Saleh’s research has had a measurable impact on the scientific community. His works are frequently cited by academics and researchers involved in radiation monitoring, environmental protection, and materials science. His collaborations with international scholars underscore his influence in both regional and global scientific spheres.

📈 Academic Cites and Research Metrics

Dr. Saleh’s academic footprint is significant, with his scholarly works cited in journals indexed by Scopus, Web of Science, and Google Scholar. His ORCID ID (0000-0003-4385-6442) confirms his scholarly identity across platforms. Many of his publications are among the top cited works in radiation shielding and environmental radioactivity studies in Yemen.

🧪 Research Skills

Dr. Saleh possesses high-level research competencies in:

  • Gamma spectroscopy

  • Dosimetric materials development

  • Radiation hazard assessment

  • Environmental sampling and analysis

  • Gamma-ray shielding evaluation

He is also proficient in using analytical tools and simulation techniques for nuclear and radiation physics research.

🎓 Teaching Experience

A dedicated educator, Dr. Saleh has taught a broad range of undergraduate and postgraduate courses in nuclear physics, radiation safety, and applied physics. His teaching appointments span multiple departments at the University of Aden, including the Faculty of Education and Faculty of Science. He also has extensive supervisory experience, guiding Ph.D. and M.Sc. students in both Yemen and Egypt.

🧑‍🔬 Legacy and Future Contributions

Dr. Saleh’s legacy lies in his pioneering efforts to map and mitigate radiological risks in Yemen, a region often underrepresented in nuclear environmental research. He is a mentor, research leader, and policy contributor. His future work is expected to delve deeper into advanced radiation shielding materials, particularly glasses doped with rare earth elements, and public health implications of radiation exposure. His contributions will continue to shape nuclear science policies and environmental safety protocols in the region.

Top Noted Publications

Effect of lead doping on the structural, optical, and radiation shielding parameters of chemically synthesized ZnS nanoparticles

  • Authors: Abduelwhab B. Alwany, G.M. Youssef, Emran Eisa Saleh, Mohammed A. Algradee, Ali Alnakhlani, Belqees Hassan

  • Journal: Journal of Materials Science: Materials in Electronics

  • Year: January 2023

Novel Li₂O–BaO–PbO–B₂O₃ glasses: Physical, Structural, Optical, Gamma ray shielding, and fast neutron features

  • Authors: M.N. Murshed, M.E. El Sayed, E.E. Saleh, F. Alresheedi, M.A. Algradee

  • Journal: Optical and Quantum Electronics

  • Year: 2023 (Volume 56, Issue 4, Article 620)

Assessment of natural and anthropogenic radioactivity levels and their radiological hazards in surface soil samples around oil refinery, Aden Assoghra city, Yemen

  • Authors: Maharan Gafer Abdullah, Emran Eisa Saleh

  • Journal: Journal of Natural and Applied Science

  • Year: 2023 (Vol. 27, No. 2)

 Evaluation of nuclear radiation shielding behavior and structure properties of novel B₂O₃–Na₂O–K₂O–XBi₂O₃ glasses

  • Authors: Taya Duaa, Adel A.M. Saeed, Emran Eisa Saleh

  • Journal: Journal of Natural and Applied Science

  • Year: 2023 (Vol. 4, No. 4)

Estimation of effective doses to whole-bodies and hands of facilitating staff from radioiodine-131 ablation therapy patients

  • Authors: A.M. Al-Esaei, E.E. Saleh, S. El Maghraby, T.M. El Sayed, A.M.I. Kany

  • Journal: Egyptian Journal of Radiology and Nuclear Medicine

  • Year: 2024 (Vol. 55, Issue 1, Article 60)

 

Hyun Seok Yang | Particle physics and cosmology | Best Researcher Award

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Prof. Hyun Seok Yang | Particle physics and cosmology | Best Researcher Award

Department of Physics and Photon Science, Gwangju Institute of Science and Technology | South Korea

Hyun Seok Yang is an accomplished Associate Professor at the Gwangju Institute of Science and Technology (GIST) in South Korea, within the Department of Physics and Photon Science. He specializes in Particle Physics (Theory), with a profound academic and research background spanning several years. His academic journey began with a Ph.D. in Particle Physics from Sogang University in 1999, and his expertise has led him to collaborate with prominent global institutions and researchers. He continues to contribute significantly to the field, especially in theoretical frameworks surrounding particle physics.

👨‍🎓 Profile

Google scholar

Scopus

Orcid

Early Academic Pursuits 🎓

Hyun Seok Yang’s academic path began at Hanyang University, where he earned his Bachelor’s (1986-1990) and Master’s (1991-1993) degrees in Physics and Particle Physics (Theory). This strong foundation set the stage for his later pursuit of a Ph.D. in Particle Physics (Theory) at Sogang University (1997-1999). His doctoral research laid the groundwork for his ongoing focus on the theoretical aspects of particle physics, and he quickly became recognized for his sharp intellect and deep understanding of the field.

Professional Endeavors 🌍

Upon earning his Ph.D., Yang continued to refine his expertise through various postdoctoral positions and fellowships. Notably, he worked at prestigious institutions like the Basic Science Research Institute (Sogang University), the Korea Institute for Advanced Study (KIAS), and the Institute of Physics at Humboldt University in Berlin. His research fellowships and experiences in Germany, Taiwan, and Japan further expanded his international exposure and enriched his academic portfolio.

Contributions and Research Focus 🔬

Prof. Yang’s primary research focus lies in Particle Physics (Theory), particularly the fundamental forces of nature and the underlying particles that compose the universe. His theoretical models contribute to understanding complex topics like quantum field theory, high-energy physics, and the standard model. In addition, his work often intersects with cutting-edge research in quantum mechanics and astrophysics, making him a leading figure in these domains.

Impact and Influence 🌟

Prof. Yang’s research and academic leadership have had a significant impact on both national and international scientific communities. His collaborations with leading researchers and institutions worldwide have helped push the boundaries of particle physics theory. He has consistently sought to bridge the gap between theoretical work and experimental discoveries, influencing both academic scholarship and practical applications in physics.

Academic Cites 📑

With numerous publications in high-impact scientific journals and contributions to particle physics research, Yang’s academic work has earned him substantial citations. His research has shaped the theoretical frameworks that continue to guide emerging studies in particle physics. As an academic leader, his influence is evident in both his publications and the work of his students and collaborators.

Research Skills 🧠

Prof. Yang is renowned for his theoretical modeling and problem-solving abilities in particle physics. His expertise includes quantum field theory, symmetry breaking, and the mathematical techniques essential for understanding complex physical phenomena. His critical thinking and innovative approaches make him an asset to research teams tackling some of the most profound questions in physics today.

Teaching Experience 📚

As an Associate Professor at GIST, Yang has dedicated himself to mentoring the next generation of physicists. His teaching responsibilities extend to graduate-level courses in particle physics and theoretical physics. His academic rigor and passion for the subject make him a highly respected educator in his field, with many of his students going on to make their own marks in research and academia.

Awards and Honors 🏆

In recognition of his outstanding contributions to scientific research, Yang was awarded the Humboldt Research Fellowship by the Alexander von Humboldt Foundation in 2005. This prestigious fellowship allowed him to conduct research at Humboldt University, further establishing his reputation in the global scientific community.

Legacy and Future Contributions 🔮

As Yang continues his academic career at GIST, his research and teaching will likely leave a lasting legacy in the field of particle physics. His dedication to advancing the understanding of fundamental forces and particles positions him to remain a central figure in the scientific community for years to come. The future of particle physics holds many exciting possibilities, and Yang’s continued work promises to shape the next era of discovery.

  Publications Top Notes

Explicit construction of Hermitian Yang-Mills instantons on coset manifolds

  • Authors: Park, J., Yang, H.S.
    Journal: Journal of Global Energy Awards
    Year: 2024

Emergent Spacetime and Cosmic Inflation

  • Authors: Yang, H.S.
    Journal: Universe
    Year: 2024

Generalization of instanton-induced inflation and dynamical compactification

  • Authors: Ho, J., Kim, K.K., Koh, S., Yang, H.S.
    Journal: Journal of Global Energy Awards
    Year: 2023

Algebraic properties of Riemannian manifolds

  • Authors: Chung, Y., Hwang, C.-O., Yang, H.S.
    Journal: General Relativity and Gravitation
    Year: 2023

Dark energy and dark matter in emergent gravity

  • Authors: Lee, J., Yang, H.S.
    Journal: Journal of the Korean Physical Society
    Year: 2022

 

 

Bishwabhusan Sutar | Particle physics and cosmology | Young Scientist Award

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Mr. Bishwabhusan Sutar | Particle physics and cosmology | Young Scientist Award

Research scholar at C.V. Raman Global University, Odisha, India

👨‍🎓 Profiles

🌟Summary

🔍 Passionate Researcher & Educator: Currently pursuing a Ph.D. in Mathematics at C.V. Raman Global University. Deeply interested in cosmology, mathematical physics, and integral transforms, with a strong commitment to teaching and inspiring students. Actively contributing to the academic world through research in modified theories of gravity and cosmological wormholes. Seeking an Assistant Professor position in Mathematics to continue academic and research growth.

🎓Education

🎓 Ph.D. in Mathematics (2021-Present)
      C.V. Raman Global University, Bhubaneswar, Odisha
      Thesis: Cosmological wormholes in general and modified theories of gravity
      CGPA: 7.69 (Coursework)

🎓 M.Sc. in Mathematics (2017-2019)
      Sambalpur University, Sambalpur, Odisha
First Class with Distinction

🎓 B.Sc. in Mathematics (2014-2017)
      Utkal University, Bhubaneswar, Odisha
      Honours: 77%

💼Professional Experience

📚 Teaching Assistant (2021-Present)
      C.V. Raman Global University, Bhubaneswar, Odisha

  • Assisted in delivering undergraduate mathematics courses.
  • Led tutorials and provided academic support for B.Tech, Diploma, and M.Sc. students.

🧑‍🏫 Research Scholar (2021-Present)
     C.V. Raman Global University, Bhubaneswar, Odisha

  • Conducting research in cosmology, mathematical physics, and modified gravity theories.

🔬Research Interests

🌌 Cosmology & Gravitational Physics

  • Focus on cosmological wormholes and modified theories of gravity
  • Exploring Lyra manifold, Brans-Dicke theory, and Barber’s second self-creation theory

📐 Mathematical Physics & Applied Mathematics

  • Applications of integral transforms in solving differential equations
  • Advanced mathematical models for real-world physical phenomena

🏆 Awards & Recognition

  • Selected for PostGraduate Scholarship by the Institute of Mathematics and Applications, Odisha
  • Awarded e-medhabruti Merit Scholarship by the Government of Odisha

🖥Skills

🖥️ Technical: Latex, Mathematica, Matlab, Python, MS Office
🗣️ Soft Skills: Effective Communication, Teaching, Analytical Thinking, Problem Solving

 Publications

Traversable wormhole supported by non-exotic gravitational fluid in the Lyra manifold
  • Authors: Sutar, B., Mahanta, K.L., Sahoo, R.R.
    Journal: Chinese Journal of Physics
    Year: 2024
Traversable wormhole solutions in Barber’s second self-creation theory
  • Authors: Sutar, B., Mahanta, K.L., Sahoo, R.R.
    Journal: Indian Journal of Physics
    Year: 2024
Traversable wormhole solutions admitting Karmarkar condition in Lyra manifold
  • Authors: Sutar, B., Mahanta, K.L., Sahoo, R.R.
    Journal: European Physical Journal Plus
    Year: 2023

 

 

Yao Li | Quantum Field Theory | Best Researcher Award

Published on by Global Energy Awards

Assoc Prof Dr. Yao Li | Quantum Field Theory | Best Researcher Award

Associate professor at School of Electronic and Information Engineering, Lanzhou Jiaotong University, China

Dr. Yao Li is an Associate Professor at the School of Electronic and Information Engineering at Lanzhou Jiaotong University. He earned his Ph.D. in Engineering from Lanzhou University, specializing in Microelectronics and Solid-State Electronics. Dr. Li has a profound commitment to advancing research in semiconductor devices, contributing significantly to the field through both innovative research projects and high-quality publications. He has garnered recognition for his scholarly efforts, particularly within Gansu Province. His dedication to fostering young talent in academia is evident from his involvement in various educational initiatives and programs.

 🎓Profile:

Education:

Dr. Yao Li obtained his Bachelor’s and Master’s degrees in Electronics Engineering from Lanzhou University, where he developed a strong foundation in electronic systems. He further pursued a Ph.D. in Engineering, specializing in Microelectronics and Solid-State Electronics. His doctoral research focused on advancing semiconductor technologies, which has laid the groundwork for his subsequent academic and research pursuits. Dr. Li’s education has equipped him with the necessary theoretical knowledge and practical skills to excel in the dynamic field of electronics. His academic journey reflects a commitment to continuous learning and innovation, contributing to his standing as a respected figure in the academic community.

Professional Experience:

Dr. Yao Li has amassed significant experience in academia and research. As an Associate Professor at the School of Electronic and Information Engineering at Lanzhou Jiaotong University, he teaches various courses related to electronics and semiconductor technology. Dr. Li has successfully led multiple key research projects, including those funded by the National Natural Science Foundation of China and the Gansu Province Youth Science and Technology Fund. His involvement in these projects has enhanced innovation capacity within higher education institutions and fostered talent development. Additionally, Dr. Li has contributed to various scholarly publications, demonstrating his expertise in the field. He serves as a Young Editor for Semiconductor Optoelectronics, further reflecting his active engagement in the academic community. His role in both teaching and research illustrates his dual commitment to educating the next generation of engineers while advancing the frontiers of semiconductor technology.

Research Focus:

Dr. Yao Li’s primary research focus lies in the realm of semiconductor devices and solid-state electronics. His investigations explore the innovative applications of microelectronics in various sectors, contributing to advancements in technology and enhancing electronic performance. Through leading and participating in projects funded by national and provincial programs, he aims to push the boundaries of semiconductor research. Dr. Li’s work encompasses both theoretical and practical aspects, fostering a comprehensive understanding of material properties and device functionalities. His publications in reputable journals such as IEEE Transactions on Electron Devices and Organic Electronics demonstrate his commitment to disseminating knowledge and findings in the field.

Awards and Honors:

Dr. Yao Li has been recognized for his outstanding contributions to the field of electronics and engineering through several prestigious awards. Notably, he received the Third Prize in the Gansu Province Science and Technology Progress Award, highlighting his impactful research efforts. In 2019, he was selected for the Lanzhou Jiaotong University Tianyou Young Talent Program, underscoring his potential and contributions to the academic community. Most recently, in 2023, Dr. Li was honored as a Young Research Star at Lanzhou Jiaotong University, reflecting his significant achievements and commitment to advancing knowledge in microelectronics. These accolades not only affirm his dedication to research and innovation but also position him as a rising star in the academic landscape. Dr. Li’s recognition serves as an inspiration to his peers and students, motivating them to pursue excellence in their respective fields.

 📚Publication Top Notes:

Title: Influence of AZO buffer layer on characteristics of ZnO film on glass substrates for Schottky UV photodetector applications
  • Authors: Zhang, C., Hu, T., Wang, Z., Li, Y.
  • Publication Year: 2024
  • Citations: 1
Title: Research progress on giant magnetoresistive sensors based on spin-valve structure
  • Authors: Li, Y., Liu, L., Wu, H., Lu, Q.
  • Publication Year: 2024
  • Citations: 0
Title: A High-Performance InGaAs Vertical Electron–Hole Bilayer Tunnel Field Effect Transistor with P+-Pocket and InAlAs-Block
  • Authors: Liu, H., Li, P., Zhou, X., Zhang, W., Li, Y.
  • Publication Year: 2023
  • Citations: 2
Title: Secondary electron emission of B-doped/undoped double-layer heteroepitaxial single crystal diamond film
  • Authors: Wei, K., Wu, S., Zhao, H., Wu, R., Wu, X.
  • Publication Year: 2023
  • Citations: 0