Bei Chen | High energy physics | Best Researcher Award

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Ms. Bei Chen | High energy physics | Best Researcher Award

Tianjin University of Technology | China

Chen Bei is a dynamic Photoelectric Chip Engineer specializing in Condensed Matter Physics with a focus on inorganic semiconductor materials and devices. With solid academic roots and research training from prestigious institutions like Tianjin University of Technology and National University of Defense Technology, Chen Bei is known for his hands-on expertise in photoelectric device fabrication, characterization, and broadband photodetectors. His works contribute to both civilian innovations and defense technologies, demonstrating a rare blend of academic excellence and applied engineering acumen.

šŸ‘Øā€šŸŽ“Profile

Scopus

šŸŽ“ Early Academic Pursuits

Chen Bei began his academic journey in Physics at Inner Mongolia University for Nationalities, where he ranked Top 3 of 50 students and held a leadership role as Vice Minister in the student organization department. His undergraduate studies emphasized quantum mechanics, solid-state physics, and electrodynamics, laying the groundwork for a career in advanced material science. His academic excellence continued with a Masterā€™s in Condensed Matter Physics at Tianjin University of Technology, where he consistently ranked in the top 5 and received competitive scholarships and teaching responsibilities.

šŸ’¼ Professional Endeavors

Currently serving as a Photoelectric Chip Engineer at the Jiangtian Research Group (National University of Defense Technology), Chen Beiā€™s role includes testing photoelectric chip packaging, bare die analysis, and optical path construction. This position builds on his experience in device fabrication, gained through years of semiconductor research. His ongoing work explores integration strategies for military-grade silicon-based photonic systems, marking a critical step in real-world technological deployment. His engineering contributions are aligned with national priorities and show potential for both academic and industrial breakthroughs.

šŸ”¬ Contributions and Research Focus

Chen Beiā€™s research spans self-powered broadband photodetectors, artificial retina simulation, optically controlled logic, and device integration for defense. Notable among these is his published work in ACS Applied Materials & Interfaces, where he developed a CuInSā‚‚/SnOā‚‚-based detector for encrypted optical communication. His focus on interfacial engineering using TiOā‚‚ layers and metal ion doping shows deep engagement with optimizing device sensitivity and functionality across UVā€“Visā€“NIR bands. These contributions are not only novel but also have tangible technological applications.

šŸŒ Impact and Influence

Chen Beiā€™s research has already gained peer recognition, with publications in high-impact journals and ongoing projects that promise cross-disciplinary relevance in biophotonics, optoelectronics, and secure communications. His work on retina-inspired photodetectors and photoelectric logic systems can significantly influence medical imaging, wearable sensors, and neuromorphic computing. Within his research institutions, he is recognized as a bridge between theory and application, contributing meaningfully to team outcomes while enhancing national R&D capabilities in semiconductor optics.

šŸ“š Academic Citations

Chen Beiā€™s primary publication in ACS Applied Materials & Interfaces has received early attention in the material sciences and applied physics community. His upcoming article in Materials Today Energy a high-impact journal will further solidify his standing in energy-sensitive optoelectronic applications. With growing citation potential and interdisciplinary value, his publications are expected to form reference points for future research in low-power photoelectronic systems and bio-inspired photonic devices.

šŸ§Ŗ Research Skills

Chen Bei possesses strong experimental proficiency, including semiconductor material synthesis (spin-coating, hydrothermal, chemical bath deposition) and advanced characterization (SEM, TRPL, XRD, UV-Vis spectroscopy). His fluency with electronic instrumentation like Keithley source meters, vector network analyzers, and electrochemical workstations enables accurate and nuanced analysis of device behavior. He also designs and fabricates devices independently skills that mark him as a complete researcher from concept to validation. His strong grip on Origin, JADE, and Layout software also facilitates precise data interpretation and device simulation.

šŸ‘Øā€šŸ« Teaching Experience

As a graduate teaching assistant at Tianjin University of Technology, Chen Bei supported students in both practical laboratory sessions and coursework in advanced physics topics. His ability to explain complex concepts like semiconductor devices, photonic behavior, and materials characterization reflects his aptitude for mentorship. He played a pivotal role in connecting theoretical learning with lab-based exploration an experience that underlines his capacity to contribute in academic or training-focused environments.

šŸ… Awards and Honors

Chen Bei has consistently ranked among the top students, earning Second-Class Scholarships during both his bachelorā€™s and masterā€™s studies. His selection as Vice Minister of the student organization department reflects strong leadership and organizational abilities. Recognition as a graduate assistant also attests to his teaching competence and trust within the academic community. These accolades, coupled with peer-reviewed publications, position him as a rising talent in applied physics and engineering.

šŸŒŸ Legacy and Future Contributions

Chen Bei is positioned to become a thought leader in optoelectronic integration and semiconductor device engineering. His work has the potential to impact military-grade communication, biomimetic sensors, and self-powered IoT technologies. With growing experience in multidisciplinary collaborations, and exposure to real-world implementation scenarios, he is set to define the next wave of photoelectric innovation. As he continues to evolve, his blend of scientific insight, engineering rigor, and innovation-minded focus will be instrumental in shaping future technologies.

Publications Top Notes

UV-Vis-NIR Broad-Band Self-Powered CuInSā‚‚/SnOā‚‚ Photodetectors and the Application in Encrypted Optical Communication

  • Authors: Chen Be
    Journal: ACS Applied Materials & Interfaces
    Year: 2024

Insertion Layer of TiOā‚‚ to Improve the UVāˆ’Visāˆ’NIR Photoresponse Characteristics of CuInSā‚‚/SnOā‚‚ Self-Powered Photodetectors and Its Application in Artificial Retinas

  • Authors: Chen Bei
    Journal: Materials Today Energy
    Year: 2024

 

Lijun Wang | High energy physics | Best Researcher Award

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Dr. Lijun Wang | High energy physics | Best Researcher Award

Changzhou University | China

Dr. Lijun Wang is a dynamic researcher and educator specializing in thermoelectric materials, currently a Research Fellow at the Queensland University of Technology and previously a Lecturer at Changzhou University. With a Ph.D. in Materials Science and Engineering from China University of Petroleum (Beijing) and a visiting Ph.D. experience at The University of Queensland, Dr. Wang brings a global perspective to advanced materials research. His expertise bridges energy materials, nanostructures, and thermal transport, underlined by over 28 peer-reviewed publications, 5 patents, and an impressive academic citation record.

šŸ‘Øā€šŸŽ“Profile

Scopus

Google scholar

šŸŽ“ Early Academic Pursuits

Dr. Wang began his academic journey with a Bachelor’s degree in Polymer Materials from Liaocheng University, followed by a Masterā€™s in Textile and Material Engineering from Dalian Polytechnic University. His drive for deeper scientific exploration led to a Ph.D. in Materials Science and Engineering at China University of Petroleum-Beijing, supported by the China Scholarship Council. As a Visiting Ph.D. Researcher at The University of Queensland, he honed his skills in nanomaterials and thermoelectrics, laying the foundation for his future contributions in thermal conductivity engineering and energy conversion systems.

šŸ§‘ā€šŸ”¬ Professional Endeavors

Dr. Wangā€™s professional career features a dual academic appointmentā€”a Lecturer at Changzhou University since 2020 and a Research Fellow at Queensland University of Technology starting in 2024. At Changzhou University, he has taught and developed several key materials science and chemistry courses. His academic leadership also includes supervising Masterā€™s and undergraduate research projects. His international experience and involvement in multi-institutional collaborations highlight his role in advancing research on SnTe-based and flexible thermoelectric systems, contributing to global energy solutions and academic excellence.

šŸ”¬ Contributions and Research Focus

Dr. Wangā€™s research is focused on thermoelectric materials, especially SnTe-based systems, thermal conductivity minimization, and nanostructure engineering. He has significantly contributed to the design of high-performance materials using doping strategies, phonon scattering mechanisms, and solution-based synthesis methods. His work addresses critical needs in flexible electronics, energy harvesting, and battery thermal management. Dr. Wangā€™s impactful studies have been published in prestigious journals like ACS Applied Materials & Interfaces, Chemical Society Reviews, and Nano Energy, where he frequently serves as first author or co-corresponding author.

šŸŒ Impact and Influence

Dr. Wangā€™s research has attracted over 700 Google Scholar citations, demonstrating significant scientific influence. His innovations in SnTe thermoelectric materials have received international recognition, contributing to advancements in green energy technologies and sustainable materials. He has co-authored in high-impact journals such as Advanced Science, ACS Nano, and Acta Materialia, influencing the academic and industrial communities alike. His patented technologies represent tangible outputs of academic research into real-world applications, particularly in energy-efficient electronic systems.

šŸ“š Academic Citations

With 28 publications, including 10 first-author papers, 5 patents, and an H-index of 12, Dr. Wangā€™s work has achieved 704 citations to date. His most cited work on Se/Cd Co-doped SnTe has been referenced 56 times, highlighting its impact on thermoelectric research. Several of his publications in ACS Applied Materials, Nano Energy, and Chemical Engineering Journal are foundational to lattice thermal conductivity and nanostructuring techniques. His research continues to influence new generations of material scientists, both through citations and collaborative projects.

šŸ› ļø Research Skills

Dr. Wang possesses a strong arsenal of experimental techniques, including microwave solvothermal synthesis, nanostructure design, and high-resolution microscopy. His work involves thermal property measurements, electronic transport analysis, and computational modeling of energy materials. He is skilled in collaborative research, project management, and multidisciplinary problem-solving, especially in the fields of thermoelectrics, photovoltaics, and membrane materials. His ability to translate fundamental science into technological innovation is reflected in both his patented methods and high-impact publications.

šŸ§‘ā€šŸ« Teaching Experience

At Changzhou University, Dr. Wang has taught and developed curriculum for four core undergraduate courses: Material Economy and Management, Organic Membrane Materials, Foundations of Crystallography, and Experimental Chemistry from 2020 to 2023. His innovative teaching approach integrates theoretical grounding with practical applications, inspiring students toward research excellence. As a certified higher education lecturer and Masterā€™s thesis supervisor, he has mentored over 10 undergraduate and graduate students, many of whom have pursued advanced studies and research roles under his guidance.

šŸ† Awards and Honors

Dr. Wang has received numerous prestigious awards including the Chinese Government Award for Outstanding Joint PhD Students Abroad (2017) and the National PhD Scholarship. He also won the Outstanding Poster Award at the Chinese Materials Conference 2017. His teaching and academic merits earned him the Higher Education Teaching Qualification Certificate and Masterā€™s Supervisor Certification in China. His early academic excellence was recognized with multiple university scholarships and an Outstanding Graduate Award a testament to his consistent academic dedication and leadership.

šŸš€ Legacy and Future Contributions

Dr. Wang aims to pioneer the next generation of energy materials through advanced thermoelectric systems, flexible devices, and scalable synthesis methods. With his evolving role at Queensland University of Technology, he is poised to lead international collaborations, contribute to climate-conscious technologies, and mentor a new wave of materials scientists. His growing body of patented inventions and scholarly works will shape the future of energy conversion technologies. Dr. Wangā€™s legacy lies in his dedication to bridging fundamental research with real-world impact, paving a sustainable path forward.

Top Noted Publications

Zn/In dual doping enhances the thermoelectric performance of SnTe

  • Authors: Lijun Wang, Xiao-Lei Shi, Lvzhou Li, Cuicui Dong, Pengcheng Miao, Ziyi Shen, Ningyi Yuan, Jianning Ding, Shuqi Zheng, Zhi-Gang Chen
    Journal: Journal of Physics: Materials
    Year: 2024

Advances in solid-state and flexible thermoelectric coolers for battery thermal management systems

  • Authors: Lijun Wang, Xiao-Lei Shi, Yicheng Yue, Lvzhou Li, Cuicui Dong, Jianjun Guan, Jianning Ding, Ningyi Yuan, Zhi-Gang Chen
    Journal: Soft Science
    Year: 2024

Advancing flexible thermoelectrics for integrated electronics

  • Authors: Xiao-Lei Shi, Lijun Wang, Wanyu Lyu, Tianyi Cao, Wenyi Chen, Boxuan Hu, Zhi-Gang Chen*
    Journal: Chemical Society Reviews
    Year: 2024

Zinc Doping Induces Enhanced Thermoelectric Performance of Solvothermal SnTe

  • Authors: Lijun Wang, Xiao-Lei Shi*, Lvzhou Li, Min Hong, Bencai Lin, Pengcheng Miao, Jianning Ding, Ningyi Yuan, Shuqi Zheng*, Zhi-Gang Chen*
    Journal: Chemistry ā€“ An Asian Journal
    Year: 2024

Hierarchical Structuring to Break the Amorphous Limit of Lattice Thermal Conductivity in High-Performance SnTe-Based Thermoelectrics

  • Authors: Lijun Wang, Min Hong, Qiang Sun, Yuan Wang, Luo Yue, Shuqi Zheng*, Jin Zou*, Zhi-Gang Chen*
    Journal: ACS Applied Materials & Interfaces
    Year: 2020

 

 

 

 

Paolo Valtancoli | Particle physics and cosmology | Best Researcher Award

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Dr. Paolo Valtancoli | Particle physics and cosmology | Best Researcher Award

Dipartimento di Fisica e Astronomia | Italy

Paolo Valtancoli is an accomplished physicist whose career has spanned over four decades, focusing on the intersections of gravitational physics, quantum field theory, and noncommutative geometry. He obtained his Laurea in Physics from the University of Florence in 1984 with a thesis on gravitational anomalies and earned his Ph.D. in Pisa in 1989, delving into chiral anomalies within field theory. Since 1991, he has been a researcher at the University of Florence, contributing prolifically with over 60 scientific publications in leading physics journals.

šŸ‘Øā€šŸŽ“Profile

Scopus

ORCID

šŸŽ“ Early Academic Pursuits

Paolo Valtancoliā€™s academic journey began in Florence, where he graduated with a degree in Physics in 1984, presenting a thesis on gravitational anomalies a field deeply tied to the foundations of quantum gravity. His intellectual rigor led him to pursue a Ph.D. in Pisa, completed in 1989, with groundbreaking research on chiral anomalies and their interpretation through the vacuum structure of field theory. These formative years were marked by a keen interest in theoretical consistency in quantum field models, laying the groundwork for his lifelong research focus.

šŸ§‘ā€šŸ”¬ Professional Endeavors

Since May 1991, Paolo Valtancoli has served as a permanent researcher at the University of Florence, contributing consistently to the field of theoretical physics. His role includes affiliations with INFN (Istituto Nazionale di Fisica Nucleare), enhancing collaborative research. With over 60 peer-reviewed publications, Valtancoli has explored diverse theoretical domains including gravity in lower dimensions, minimal length theories, noncommutative geometry, and black hole physics. His career reflects a dedication to independent, high-quality scholarship, with a strong presence in both national and international physics communities.

šŸ§  Contributions and Research Focus

Valtancoli’s research spans several frontier areas in theoretical physics, notably: (2+1)-dimensional gravity, Chern-Simons supergravity, Snyder geometry, and noncommutative space-time models. His work on minimal length frameworks, such as those modifying the Heisenberg uncertainty principle, plays a pivotal role in connecting quantum mechanics and gravity. Publications like ā€œBumblebee gravity with cosmological constantā€ and ā€œDirac oscillator and minimal lengthā€ exemplify his ability to tackle complex mathematical structures in a physically meaningful way. His deep engagement with black hole thermodynamics, gravitational waves, and f(R) inflation models further highlight a broad, yet coherent, research trajectory.

šŸŒ Impact and Influence

Valtancoli’s impact lies in his sustained scholarly output and his early pioneering work on anomalies, which has influenced subsequent developments in quantum gravity. His detailed modeling of (2+1) dimensional systems has contributed to the mathematical understanding of spacetime singularities, especially in topologically nontrivial scenarios. His contributions to fuzzy geometry and noncommutative gauge theory are widely cited by theorists seeking to extend the Standard Model or quantize gravity. By merging rigorous formalism with conceptual depth, he has shaped theoretical directions for young researchers in both Italian and international contexts.

šŸ“š Academic Citations

Across his 60+ works, Valtancoli has accumulated citations across key subfields such as quantum gravity, noncommutative geometry, and black hole physics. His early collaboration with figures like Luca Lusanna and Andrea Cappelli led to widely referenced papers on Dirac observables and topological anomalies. Articles like ā€œSpontaneous symmetry breaking in the nonAbelian anyon fluidā€ and ā€œGravity on a fuzzy sphereā€ remain key references in niche but impactful areas. His citations reveal a consistent thematic alignment with advanced quantum field theories and a lasting presence in scholarly discourse.

šŸ§Ŗ Research Skills

Valtancoli demonstrates exceptional skills in analytical methods, particularly in path integrals, canonical quantization, and field-theoretic anomaly computations. His mathematical fluency extends to differential geometry, Lie algebra analysis, and noncommutative algebraic structures, essential for modeling quantum space-time. His ability to generate exact solutions in modified gravity theories, including f(R) and Bumblebee models, reflects a refined capacity for integrating formal mathematics into physical theory-building. His independence and precision make him a valuable contributor to any theoretical or interdisciplinary physics project.

šŸ‘Øā€šŸ« Teaching Experience

Though primarily a researcher, Paolo Valtancoli has also contributed to the education of young physicists through graduate-level mentorship and supervision of theses at the University of Florence. His deep subject matter expertise enhances advanced instruction in general relativity, field theory, and quantum mechanics. By integrating his own research into teaching, he offers students firsthand insights into active research areas like noncommutative geometry and gravity models. His consistent academic presence since 1991 makes him a pillar of continuity for the universityā€™s theoretical physics curriculum.

šŸ… Awards and Honors

While no major international prizes are listed, Valtancoliā€™s career longevity, publication record, and continuous academic appointment since 1991 reflect institutional recognition and respect. His collaborations with prestigious institutions like INFN, CERN, and LBL Berkeley, and contributions to renowned conferences such as Rencontres de Moriond, show a high level of peer acknowledgment. Publishing regularly in journals like Annals of Physics, Nuclear Physics B, and International Journal of Modern Physics A, underscores his scholarly reliability and quality. These are honors earned through sustained academic excellence.

šŸ§­ Legacy and Future Contributions

Paolo Valtancoliā€™s legacy lies in his rich and consistent body of theoretical work that will remain valuable as physics progresses toward quantum gravity and beyond. His models involving minimal length, noncommutative spaces, and gravitational anomalies anticipate many themes in emerging quantum spacetime theories. As theoretical physics increasingly intersects with mathematical rigor, Valtancoliā€™s contributions serve as a bridge between classical theory and quantum innovation. Looking ahead, his continued research now entering its fifth decade promises further insights into the foundations of space, time, and matter.

Top Noted Publications

Bumblebee gravity with cosmological constant

  • Author: P. Valtancoli
    Journal: Annals of Physics
    Year: 2025

Euclidean black holes and spin connection

  • Author: P. Valtancoli
    Journal: (Institutional Repository)
    Year: 2024

Translation in momentum space and minimal length

  • Author: P. Valtancoli
    Journal: International Journal of Modern Physics A
    Year: 2022

Generating perfect fluid solutions in isotropic coordinates

  • Author: P. Valtancoli
    Journal: Annals of Physics
    Year: 2020

Exactly solvable f(R) inflation

  • Author: P. Valtancoli
    Journal: International Journal of Modern Physics D
    Year: 2019

 

Hayriye SUNDU | High energy physics | Best Researcher Award

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Prof. Hayriye SUNDU | High energy physics | Best Researcher Award

Professor at ISTANBUL MEDENIYET UNIVERSITY | Turkey

Assoc. Prof. Dr. Hayriye Sundu Pamuk is a seasoned theoretical physicist specializing in high energy physics and QCD sum rules, currently serving at Istanbul Medeniyet University. With over two decades of academic experience, she has made impactful contributions to the field of exotic hadrons, publishing extensively in high-impact journals. Her work spans theoretical predictions of heavy tetraquark states, hybrid mesons, and thermal properties of hadronic matter. She is recognized for her rigorous research, effective mentorship, and leadership roles in academia.

šŸ‘Øā€šŸŽ“Profile

Google scholar

Scopus

šŸ“˜ Early Academic Pursuits

Dr. Hayriye Sundu Pamuk began her academic journey with a B.Sc. in Physics Education from Balıkesir University in 1998. Her passion for particle physics led her to Middle East Technical University (METU), where she completed both her M.Sc. and Ph.D. in High Energy Physics under the supervision of Prof. Dr. Erhan Onur İltan. Her graduate research focused on the Two Higgs Doublet Model (2HDM), addressing phenomena such as lepton flavor violation and the muon anomalous magnetic moment. These early explorations laid the theoretical groundwork for her future contributions in particle phenomenology and quantum field theory.

šŸ§‘ā€šŸ”¬ Professional Endeavors

Her professional academic path includes notable roles at top institutions. From 2000 to 2007, she served as a research and teaching assistant at METU. In 2007, she joined Kocaeli University as a faculty member, advancing from Dr. Assistant to Associate Professor. Her tenure there spanned 16 years, enriched by administrative leadership and mentorship of graduate theses. In 2023, she transitioned to the Faculty of Engineering and Natural Sciences at Istanbul Medeniyet University, where she continues to lead innovative research and graduate instruction in advanced theoretical physics topics.

šŸ”¬ Contributions and Research FocusĀ 

Dr. Sundu Pamuk’s primary research lies in the phenomenology of exotic hadrons, particularly tetraquarks and hybrid mesons, explored through QCD sum rules and thermal field theory. Her studies contribute to understanding the non-perturbative aspects of QCD, and she is often cited for theoretical analyses of fully-heavy quark systems such as bbcc and bcbc states. Her recent worksĀ  appearing in journals like Phys. Rev. D, Eur. Phys. J. C, and Phys. Lett. B are instrumental in predicting the mass spectra, decay constants, and thermal behaviors of these particles, bridging theory with potential experimental discovery.

šŸŒ Impact and Influence

Dr. Sundu Pamuk’s influence in high-energy physics is reflected in her collaborations across multiple institutions and countries, especially with leading researchers like K. Azizi and S.S. Agaev. Her papers are widely downloaded, cited, and reviewed within the theoretical particle physics community. As a graduate mentor, she has produced scholars contributing to academia and research. Her investigations are especially relevant in the era of LHC upgrades and heavy ion collisions, where her predictions guide experimental searches. Her administrative roles demonstrate her strategic vision for academic excellence and her commitment to building research capacity.

šŸ“ˆ Academic Citations

With more than 20 SCI-indexed publications in a short period (2023ā€“2025), Dr. Sundu Pamuk has maintained a high publication density. Her articles in reputable journals such as Phys. Rev. D and Eur. Phys. J. C have garnered significant citations, particularly in areas involving exotic quark configurations. Her collaborative works on thermal properties of tetraquarks and decay mechanisms of hybrid mesons are frequently referenced by fellow theorists and computational physicists. Her academic footprint is steadily growing, with Google Scholar and ResearchGate profiles that reflect her influence, consistency, and scientific originality.

šŸ› ļø Research SkillsĀ 

Dr. Sundu Pamuk demonstrates proficiency in computational techniques, particularly QCD sum rules, operator product expansion, and thermal field theory. She is adept at performing analytical derivations and numerical modeling, frequently applying them to predict hadron spectra, leptonic decay constants, and transition amplitudes. Her ability to bridge theoretical frameworks with real-world particle behavior makes her a sought-after collaborator. She also employs tools such as Mathematica, Maple, and other symbolic computation platforms. Her focus on rigor, reproducibility, and mathematical consistency has earned her strong credibility in quantum field theory and particle phenomenology.

šŸ‘©ā€šŸ« Teaching Experience

An accomplished educator, Dr. Sundu Pamuk has taught a wide range of graduate and undergraduate courses, including Advanced Quantum Physics, Statistical Physics, Thermodynamics, and Electromagnetic Theory. She is noted for her clarity of explanation, student mentorship, and the ability to simplify complex physical concepts. At both Kocaeli University and Istanbul Medeniyet University, she has introduced innovative approaches in courses such as Numerical Methods in High Energy Physics. Her consistent engagement with students beyond lectures through thesis advising, research projects, and workshops reflects her commitment to fostering scientific curiosity and critical thinking.

šŸ† Awards and Honors

Dr. Sundu Pamuk’s academic excellence has been formally recognized with multiple Scientific Achievement Prizes from Kocaeli University (2011, 2012, 2016, 2017, 2019, 2021). She also received the Honour Students Prize during her doctoral studies at METU in 2004, highlighting early promise. Her repeated honors reflect sustained research output, dedication to teaching, and service to the academic community. These accolades serve as evidence of institutional and peer recognition, affirming her status as a leading scholar in particle physics and a role model for younger scientists in Turkey and beyond.

šŸŒŸ Legacy and Future Contributions

As a leading figure in exotic hadron physics, Dr. Sundu Pamuk is poised to make lasting contributions to quantum chromodynamics and beyond-standard-model physics. Her future work is expected to delve into multi-quark dynamics at extreme conditions, relevant for astrophysical phenomena and collider experiments. Her legacy will also include her influence on physics education, as her former students continue to shape research in Turkey and globally. With a strong foundation and growing international collaborations, she is well-positioned to lead interdisciplinary initiatives, contribute to policy in science education, and inspire the next generation of physicists.

Top Noted Publications

Fully heavy asymmetric scalar tetraquarks

  • Authors: S.S. Agaev, K. Azizi, H. Sundu
    Journal: European Physical Journal A
    Year: 2025

Scalar fully-charm and bottom tetraquarks under extreme temperatures

  • Authors: A. Aydın, H. Sundu, J.Y. SĆ¼ngĆ¼, E. Veli Veliev
    Journal: European Physical Journal C
    Year: 2025

Hidden charm-bottom structures bcbĢ„cĢ„: Axial-vector case

  • Authors: S.S. Agaev, K. Azizi, H. Sundu
    Journal: Physics Letters B
    Year: 2025

Properties of the tensor state bc bĢ„ cĢ„

  • Authors: S.S. Agaev, K. Azizi, H. Sundu
    Journal: Physical Review D
    Year: 2025

Decays of the light hybrid meson 1ā»āŗ

  • Authors: G.D. Esmer, K. Azizi, H. Sundu, S. TĆ¼rkmen
    Journal: Physical Review D
    Year: 2025

 

Ravishankar Ambi | High energy physics | Best Researcher Award

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Assist. Prof. Dr. Ravishankar Ambi | High energy physics | Best Researcher Award

Assistant Professor at Jaysingpur College, Jaysingpur | India

Dr. Ravishankar Ramesh Ambi is a dedicated physicist specializing in material science and thin film gas sensor technology. Awarded a Ph.D. in Physics from Shivaji University, Kolhapur in July 2024, he has established himself as an emerging researcher focusing on advanced nanomaterials for energy conversion and storage devices. His academic journey reflects a consistent pursuit of knowledge, culminating in innovative research outputs and contributions to both science and education.

šŸ‘Øā€šŸŽ“Profile

Scopus

šŸŽ“ Early Academic Pursuits

Dr. Ambiā€™s educational foundation is rooted in physics, starting with a Bachelor of Science (B.Sc.) from Jaysingpur College, followed by a Master of Science (M.Sc.) from Shivaji University, where he secured First Class with a percentage of 55.21%. His academic diligence from the early stages set the stage for his advanced research, culminating in a Ph.D. thesis on ā€œStudies on Metal Oxide NiO coated ZnO thin films for gas sensing application,ā€ showcasing his growing expertise in nanomaterial sciences.

šŸ’¼ Professional Endeavors

Since July 2024, Dr. Ambi has been contributing as a faculty member in the Department of Physics at Jaysingpur College, engaging in both teaching and research. Alongside his academic duties, he has taken on roles such as Theory Exam Junior Supervisor and Practical Lab Expert, reflecting his commitment to academic integrity and student development. His participation in workshops and seminars further demonstrates his proactive engagement with the evolving educational landscape.

šŸ”¬ Contributions and Research Focus

Dr. Ambiā€™s primary research areas include material science, thin film gas sensors, and energy conversion and storage devices. His significant research work has led to the publication of several papers in reputable international journals, including those with high impact factors (up to 4.1). He holds a patent for vertically aligned ZnO nanorod films aimed at highly sensitive and selective NO2 gas detection, highlighting his contribution to applied science and sensor technology innovation.

šŸŒŸ Impact and Influence

Through his research on metal oxide coated ZnO thin films and gas sensors, Dr. Ambi addresses critical challenges in environmental monitoring and energy technologies. His work on NiO nanosheets and hierarchical heterostructures has enhanced the sensitivity and selectivity of gas sensors, contributing to improved air quality detection methods. His active participation in international conferences and national workshops amplifies his influence in the scientific community.

šŸ“š Academic Cites and Publications

Dr. Ambi has published at least five significant research papers, including contributions in Applied Physics A, Materials Science & Engineering B, and Sensors and Actuators A: Physical, journals recognized for their academic rigor and impact. His papers focus on novel nanostructures for gas sensing, reflecting both theoretical insight and practical applications. These publications contribute to his growing academic reputation and serve as references for ongoing research in the field.

šŸ§° Research Skills

Dr. Ambi exhibits strong competencies in thin film deposition techniques, chemical synthesis of nanomaterials, and characterization methods such as spectroscopy and microscopy. His expertise extends to fabricating nanostructured sensors with enhanced performance, and he has experience managing funded research projects, including a notable project with IIT Bombayā€™s Centre of Excellence in Nano-electronics. These skills position him as a valuable asset for both academic and applied research.

šŸ‘Øā€šŸ« Teaching Experience

Since his appointment in July 2024, Dr. Ambi has actively contributed to the academic growth of physics students at Jaysingpur College. He has taught undergraduate courses aligned with the new NEP-2020 curriculum, participated in curriculum workshops, and overseen laboratory practicals. His role extends beyond teaching, including organizing examinations and serving on committees, showcasing a holistic approach to education.

šŸ† Awards and Honors

Dr. Ambiā€™s notable achievement includes the award of his Ph.D. in 2024 and securing research grants for projects on ZnO thin films. His published patent further emphasizes his innovative capabilities. Though early in his career, his consistent research output and academic contributions position him well for future awards and recognitions.

šŸŒ± Legacy and Future Contributions

With a strong foundation in nanomaterials and sensor technology, Dr. Ambi is poised to make significant contributions to environmental monitoring and sustainable energy solutions. His dedication to research, combined with his active teaching role, suggests a promising future as both a scientist and educator. Continuing to expand his research network and international collaborations will further enhance his impact and legacy in the scientific community.

Top Noted Publications

NiO nanosheet-assembled chemiresistive for NO2 detection

  • Authors: R. R. Ambi, R. A. Mali, A. B. Pawar, M. G. Mulla, R. K. Pittala
    Journal: Applied Physics A (Appl. Phys A)
    Year: 2025

Highly porous hierarchical NiO coated ZnO p-n heterostructure for NO2 detection

  • Authors: R. R. Ambi, A. A. Mane, V. B. Patil, R. D. Mane
    Journal: Materials Science & Engineering B
    Year: 2024

Highly porous NiO microstructure for NO2 detection

  • Authors: R. R. Ambi, A. A. Mane, R. D. Tasgaonkar, R. D. Mane
    Journal: Physica B: Condensed Matter
    Year: 2024

NO2 Sensing properties of chemically deposited vertically aligned flowerlike hexagonal ZnO nanorods

  • Authors: R. R. Ambi, M. G. Mulla, R. J. Pittala
    Journal: Sensors and Actuators A: Physical (Sens. Actuators: A Phys.)
    Year: 2024

Synthesis and Characterization of CdO Thin Films by Spray Pyrolysis Method

  • Authors: R. D. Mane, A. B. Patil, R. R. Ambi, U.E. Mote, R. D. Tasgaonkar
    Journal: Research Journal of Life Science, Bioinformatics, Pharmaceutical and Chemical Science
    Year: 2022

 

WAEL CHOUK | High energy physics | Young Scientist Award

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Dr. WAEL CHOUK | High energy physics | Young Scientist Award

Post-Doc at Faculty of Sciences of Bizerte | Tunisia

Dr. Wael Chouk is a dedicated Tunisian physicist specializing in materials physics, particularly in the field of dielectric and superconducting materials. With a PhD earned from the Faculty of Sciences of Bizerte, University of Carthage, he has demonstrated a consistent track record of academic excellence, international research experience, and pedagogical commitment. His profile reflects a unique blend of technical expertise, research passion, and community involvement.

šŸ‘Øā€šŸŽ“Profile

Scopus

šŸ“˜ Early Academic Pursuits

Dr. Chouk began his academic journey with a preparatory cycle in engineering (Math-Physics) from 2012 to 2015 at the Preparatory Institute for Engineering Studies, Nabeul. He then pursued a Fundamental Physics degree (2015ā€“2017) and a Masterā€™s in Physics (2017ā€“2020), graduating with honors. His early research centered on materials structure and properties, laying the foundation for his future in high-impact experimental physics.

šŸ§‘ā€šŸ« Professional Endeavors

Waelā€™s career is marked by consistent involvement in academic teaching and research supervision. As a part-time lecturer at the Faculty of Sciences of Bizerte (2021ā€“2022), he taught practical physics and later co-supervised Master’s research projects in 2023 and 2024. His teaching was not just instructional but also developmental, helping students build critical skills in dielectric materials and experimental analysis.

šŸ”¬ Contributions and Research Focus

His PhD work (2021ā€“2024) explores the superconducting-supercapacitance transition in the complex ceramic YBaā‚‚ā‚‹ā‚“Caā‚“CuĪ²OĪ“, synthesized using the sol-gel method. His research involves advanced characterization techniques such as XRD, SEM, TEM, XPS, PPMS, and VSM, highlighting his expertise in materials synthesis and structural/magnetic analysis. His contributions to the field include two co-authored scientific papers on phase transitions and intrinsic permittivity in ceramic compounds.

šŸŒ Impact and Influence

Dr. Chouk has enhanced his research impact through international internships a two-month stay at BAU University in Turkey and a three-month program at ICMM in Madrid, part of CSIC. He has also presented at prestigious events like SMSā€™2024 and AdAMFM 2022, and showcased his work at the Innovation Fair by the ANPR, where his stand on electro-ceramics for high-energy-density capacitors demonstrated both academic relevance and real-world application.

šŸ“Š Academic Citations and Publications

Dr. Wael Chouk has authored notable publications including ā€œStudy of phase transition behavior and high dielectric properties in YBaā‚‚ā‚‹ā‚“Caā‚“Cuā‚ƒOĪ“ ceramicsā€ and ā€œNovel high intrinsic permittivity in new perovskite ceramic GdCaā‚‚Cuā‚ƒOĪ“ā€. These studies significantly contribute to the scientific understanding of ceramic-based high-performance materials, with impactful applications in electronics, energy storage, and superconductivity. His research enhances the academic literature and reflects a growing influence in the field of materials physics.

šŸ§Ŗ Research Skills

Dr. Wael Chouk demonstrates strong experimental and analytical skills, especially in material synthesis (sol-gel, ceramic fabrication) and advanced characterization techniques such as XRD, TEM, SEM, XPS, and EPR. He is also proficient in simulation and analysis tools including MATLAB, Origin, and Gaussian. His expertise in laboratory instrumentation and data interpretation equips him to contribute effectively to cross-disciplinary research and lead complex experimental projects, reflecting a robust and versatile research capability.

šŸ§‘ā€šŸ« Teaching Experience

His years as a part-time teacher and student supervisor reveal a solid commitment to academic mentorship. He has taught practical physics to undergraduate students and supported Master’s candidates in achieving their academic goals, especially in materials physics and dielectric behavior analysis.

šŸ… Awards and Honors

While formal award titles are not specified, Dr. Wael Choukā€™s participation in international conferences, prestigious research internships, and representation at innovation fairs reflect peer recognition and academic credibility. He holds valuable certifications in ISO 9001, ISO 50001, X-ray diffraction, project management, stress management, public speaking, and first aid. These accomplishments highlight his professional competence, leadership potential, and strong alignment with high research standards and institutional trust.

šŸŒ± Legacy and Future Contributions

Dr. Wael Chouk is poised to leave a lasting impact on the field of applied materials physics. His future contributions are likely to lie at the intersection of ceramic materials, energy storage technologies, and magnetic-electrical coupling. With a strong foundation in both academic teaching and experimental research, he is a promising candidate for collaborative international projects, postdoctoral fellowships, and innovative research leadership.

Publications Top Notes

Study of phase transition behavior and high dielectric properties in YBaā‚‚ā‚‹ā‚“Caā‚“Cuā‚ƒOĪ“ ceramics

  • Authors: Wael Chouk, Khouloud Moualhi, Abdelhak Othmani, Mouldi Zouaoui
    Journal:Ā Materials Chemistry and Physics
    Year: 2023

Novel high intrinsic permittivity in new perovskite ceramic GdCaā‚‚Cuā‚ƒOĪ“

  • Authors: Khouloud Moualhi, Wael Chouk, Youssef Moualhi, Abdelhak Othmani, Mouldi Zouaoui
    Journal:Ā Materials chemistry and physics
    Year:Ā 2024

Multifunctional chitosan/montmorillonite/TiOā‚‚ nanocomposites: Correlating microstructure with dielectric and photocatalytic properties

  • Authors: Lahbib M., Mejri C., Bejaoui M., Chadha C., Oueslati A., Oueslati W.
    Journal: Journal of the Indian Chemical Society
    Year: 2025

Conduction mechanism investigation in YCaā‚‚Cuā‚ƒOĪ“ colossal permittivity ceramics

  • Authors: Wael Chouk, Mohamed Annabi, Mouldi Zouaoui
    Journal: Results in Physics
    Year:2025

 

 

Yang Lei | High energy physics | Best Researcher Award

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Prof. Yang Lei | High energy physics | Best Researcher Award

Associate Professor at Soochow University | China

Prof. Yang Lei is a distinguished theoretical physicist at the Institute of Advanced Study, Soochow University, specializing in black hole physics, holography, and quantum field theory. With extensive training and research experience from world-renowned institutions such as Peking University, Durham University, and Niels Bohr Institute, Prof. Lei is recognized for his cutting-edge work on AdS/CFT correspondence and non-relativistic holography, making him a rising voice in the global high-energy physics community.

šŸ‘Øā€šŸŽ“Profile

Scopus

ORCID

šŸŽ“ Early Academic Pursuits

Prof. Lei began his academic journey at the prestigious Yuanpei College, Peking University, earning his Bachelorā€™s degree in 2011, with a second major in Mathematics a testament to his foundational strength in formal theoretical reasoning. He pursued his MSc in Particles, Strings, and Cosmology at Durham University, supervised by Simon Ross, followed by a PhD in Mathematics, with a focus on Singularities in holographic non-relativistic spacetimes an area of deep relevance in modern quantum gravity.

šŸ‘Øā€šŸ”¬ Professional Endeavors

Following his PhD, Prof. Yang Lei embarked on an impressive journey through several prestigious postdoctoral positions at top-tier institutions including the Institute of Theoretical Physics, CAS, University of the Witwatersrand, Niels Bohr Institute, and Kavli Institute of Theoretical Science (KITS), UCAS. In 2022, he was appointed as an Associate Professor at Soochow University, where he continues to lead cutting-edge research and mentor young physicists, contributing meaningfully to the field of theoretical high-energy physics.

šŸ”¬ Contributions and Research Focus

Prof. Leiā€™s research is centered on black holes, holography, AdS/CFT duality, non-relativistic limits of field theories, and quantum gravity. His studies on spin matrix theory, EVH (Extremal Vanishing Horizon) black holes, and modular factorization in superconformal indices showcase his theoretical versatility and original insights into foundational questions of physics.

šŸŒ Impact and Influence

Prof. Lei has delivered more than 20 invited talks at prestigious international conferences, including String 2016, Tsinghua University, and Joburg Workshop on String Theory. His presence at academic forums and black hole workshops affirms his growing influence in the global theoretical physics community. He also demonstrates leadership in academic outreach through organizing workshops like the SUIAS HEP Workshop and KITS Summer School, promoting collaborative learning in high-energy physics.

šŸ“ˆ Academic Citations

While specific citation metrics were not detailed in the current profile, Prof. Leiā€™s consistent conference participation, grants awarded, and long-term collaborations with major institutions indicate a highly regarded academic presence, especially within holography and black hole research circles.

šŸ› ļø Research Skills

Prof. Yang Lei possesses a sophisticated toolkit of theoretical and mathematical techniques, including AdS/CFT duality calculations, non-relativistic quantum field theory, spin matrix theory analysis, black hole thermodynamics, modular invariance, and superconformal indices, as well as advanced perturbation theory and resurgence. These research capabilities enable him to tackle some of the most complex and unsolved problems in quantum gravity and holographic dualities, reinforcing his role as a leading thinker in high-energy theoretical physics.

šŸ‘Øā€šŸ« Teaching Experience

Prof. Yang Lei is a highly engaged educator, teaching core physics courses in English at Soochow University, such as Quantum Mechanics (Autumn 2023) and Solid State Physics (Spring 2023). He also contributed to the KITS Summer School, guiding students on black hole microstates and the information paradox. During his PhD, he served as a Teaching Assistant at Durham University, showcasing his well-rounded dedication to both academic instruction and research mentorship in theoretical physics.

šŸ… Awards and Honors

Prof. Yang Lei‘s exceptional contributions have earned him prestigious awards and competitive grants, such as the National Natural Science Foundation of China Young Researcher Grant (2024ā€“2026), the China Postdoc Surface Grant (2021ā€“2022), and the Overseas Postdoc Introduction and Communication Grant (2016ā€“2018). He also received the Peter Rowe Memorial Postgraduate Prize (2012) and the Durham Teaching and Learning Award (UK HEA Associate Fellowship, 2016). These accolades highlight his scholarly excellence, peer recognition, and international collaboration.

šŸŒŸ Legacy and Future Contributions

With a solid academic foundation, global collaborations, and an ever-expanding research portfolio, Prof. Yang Lei is on a trajectory to become a leading voice in quantum gravity and holography. His future contributions are expected to shape our understanding of black hole dynamics, non-AdS holography, and quantum field theories under extreme conditions. He is well-positioned to continue his impactful journey as a scholar, educator, and thought leader in modern theoretical physics.

Publications Top Notes

Conformal mapping of non-Lorentzian geometries in SU(1, 2) Conformal Field Theory

  • Authors: Stefano Baiguera, Troels Harmark, Yang Lei, Ziqi Yan
    Journal: Journal of High Energy Physics
    Year: 2025

Modularity in d > 2 free conformal field theory

  • Authors: Yang Lei, Sam van Leuven
    Journal: Journal of High Energy Physics
    Year: 2024

Quasinormal modes of C-metric from SCFTs

  • Authors: Yang Lei, Hongfei Shu, Kilar Zhang, Ruidong Zhu
    Journal: Journal of High Energy Physics
    Year: 2024

Modular factorization of superconformal indices

  • Authors: Vishnu Jejjala, Yang Lei, Sam van Leuven, Wei Li
    Journal: Journal of High Energy Physics
    Year: 2023

The Panorama of Spin Matrix theory

  • Authors: Stefano Baiguera, Troels Harmark, Yang Lei
    Journal: Journal of High Energy Physics
    Year: 2023

 

 

AndrƩ AimƩ ATANGANA LIKENE | High energy physics | Best Researcher Award

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Dr. AndrƩ AimƩ ATANGANA LIKENE | High energy physics | Best Researcher Award

Research Officer at Research Centre for Nuclear Science and Technology, Institute of Geological and Mining Research | Cameroon

Dr. Atangana LikƩnƩ AndrƩ AimƩ is a highly accomplished Research Officer specializing in Nuclear Physics, Dosimetry, and Radiation Protection. Holding a PhD in Physics from the University of YaoundƩ I, his academic journey has been marked by excellence in both teaching and research. He currently works at the Research Center of Nuclear Science and Technology, part of the Institute of Geological and Mining Research, contributing to cutting-edge scientific endeavors in the field of nuclear science.

šŸ‘Øā€šŸŽ“Profile

ScopusĀ 

ORCID

Early Academic Pursuits šŸŽ“

Dr. Atanganaā€™s academic foundation was built at the University of Douala, where he completed his Master’s Degree in Physics with a focus on Physics of Matter and Radiation. His initial research projects, including an experimental study on atoms and molecules in strong laser fields, showcased his deep engagement with experimental physics. He also earned a D.E.A in Physics from the same university, demonstrating his growing specialization in mathematical physics.

His stellar academic performance earned him multiple Academic Excellence Scholarships, which facilitated his progression through advanced studies. With a Bachelorā€™s degree in Physics and Mechanics, he laid the groundwork for a future in high-level research and teaching.

Professional Endeavors šŸ’¼

Dr. Atanganaā€™s professional journey spans both academic teaching and practical research applications. Early in his career, he contributed as a part-time high school teacher, teaching Physics and Mathematics to secondary school students. His teaching journey expanded into higher education where he worked as a part-time lecturer at Einstein Group, and later at the University of YaoundĆ© I, where he currently teaches Nuclear and Atomic Physics to undergraduate students. Simultaneously, his professional experience has been diverse, from working at the National Radiation Protection Agency (NRPA) to being part of the Institute of Geological and Mining Research, where he works with ionizing radiation metrology in alpha, beta, and gamma spectrometry.

Contributions and Research Focus šŸ”¬

Dr. Atangana’s research focuses on Nuclear Physics, Quantum Chromodynamics, and Particle Physics, particularly in hadron spectroscopy and the quark model. His doctoral research on the effect of topological defects on hadron spectra and quark confinement has significantly advanced the field. He also explores non-gravitational scalar fields and their impact on particle interactions in a Schwarzschild-like space-time. His contributions also span environmental radiation studies, where he has analyzed indoor radon concentrations and measured background radiation in uranium-rich zones in Cameroon.

Impact and Influence šŸŒ

Dr. Atanganaā€™s research has had a lasting impact on both the academic community and global scientific organizations. He is a member of prominent scientific societies such as the Cameroon Radiological Protection Society (CRPS), African School of Physics (ASP), and the American Physical Society (APS). His collaborations with international research bodies like the International Atomic Energy Agency (IAEA) and his presentations at global conferences have enhanced international cooperation in radiation protection and nuclear science. His scientific publications in leading journals have advanced nuclear energy research and theoretical physics, focusing on heavy quarkonium, meson spectroscopy, and spin interactions in topological defect spaces.

Awards and Honors šŸ†

Dr. Atangana has earned numerous awards and recognitions, including multiple Academic Excellence Scholarships and the distinction of being the Top of the 2015 Master’s Degree Promotion at the University of Douala. His sustained commitment to academic excellence and scientific discovery continues to earn him accolades both locally and internationally.

Teaching Experience šŸŽ

Dr. Atangana has substantial experience in teaching at both secondary and higher education levels. His roles as a part-time high school teacher and later as a university lecturer in Nuclear Physics reflect his passion for educating the next generation of physicists. He has been involved in mentoring undergraduate students and preparing course materials in Atomic and Nuclear Physics.

Research Skills šŸ› ļø

With expertise in symbolic computations, scientific computing, and mathematical modeling, Dr. Atangana is proficient in tools such as Python, MATLAB, SageMath, Maple, and FORTRAN. His proficiency in machine learning applications for hadron spectroscopy is a key strength in his research. He also has hands-on experience in spectrometry and radiation protection techniques, making him an invaluable asset to his field.

Legacy and Future Contributions šŸ”®

Looking ahead, Dr. Atangana aims to continue his pioneering work in nuclear physics and radiation protection. He is committed to exploring new dimensions of quantum chromodynamics, advancing particle physics models, and contributing to sustainable energy solutions. His ongoing research promises to shape the future of nuclear science, particularly in the context of global radiation safety and environmental health. His future contributions will undoubtedly further his legacy in physics research and education, inspiring young minds and influencing both scientific communities and policy-making bodies in radiation protection.

Publications Top Notes

Effect of spin-spin interaction and fractional order on heavy pentaquark masses under topological defect space-times

  • Authors: D. Nga Ongodo, A. A. Atangana LikĆ©nĆ©, J. M. Emaā€™a Emaā€™a, P. Ele Abiama, G. H. Ben-Bolie
    Journal: The European Physical Journal C
    Year: 2025

Hyperbolic tangent form of sextic potential in Bohr Hamiltonian: Analytical approach via extended Nikiforovā€“Uvarov and Heun equations

  • Authors: D. Nga Ongodo, A. Atangana LikĆ©nĆ©, A. Zarma, J. M. Emaā€™a Emaā€™a, P. Ele Abiama, G. H. Ben-Bolie
    Journal: International Journal of Modern Physics E
    Year: 2025

Angular momentum dependence of nuclear decay of radon isotopes by emission of 14^{14}C nuclei and branching ratio relative to Ī±\alpha -decay

  • Authors: A. A. Atangana LikĆ©nĆ©, J. E. Ndjana Nkoulou II, SaĆÆdou
    Journal: The European Physical Journal Plus
    Year: 2025

Non-compact extra dimensions and flavor dependence of ccĢ„ and bbĢ„ mesons masses in a hot QCD medium with lattice, LO and NLO parametrizations of the Debye mass

  • Authors: A. A. Atangana LikĆ©nĆ©, L. B. Ungem, D. C. Mbah, D. Nga Ongodo, R. Houzibe, F. B. Djeuyi Ndafeun
    Journal: Modern Physics Letters A
    Year: 2025

Quantum chromodynamics Lagrangian density and SU(3) gauge symmetry: A fractional approach

  • Authors: A. A. Atangana LikĆ©nĆ©, D. Nga Ongodo, P. Mah Tsila, A. Atangana, G. H. Ben-Bolie
    Journal: Modern Physics Letters A
    Year: 2024

 

 

 

DieudonnƩ NGA ONGODO | High energy physics | Best Researcher Award

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Assist. Prof. Dr. DieudonnƩ NGA ONGODO | High energy physics | Best Researcher Award

University of YaoundƩ I | Cameroon

Dr. DieudonnƩ NGA ONGODO is a Cameroonian nuclear physicist and Senior Lecturer at the University of YaoundƩ I, Faculty of Science, Department of Physics. With over a decade of professional and academic engagement, Dr. Nga Ongodo stands out as a prominent scholar, researcher, and educator, whose work spans nuclear instrumentation, quantum mechanics, and radiation protection. His contributions are firmly rooted in both fundamental physics and applied technologies, making him a vital figure in the African and international scientific communities.

šŸ‘Øā€šŸŽ“Profile

ScopusĀ 

ORCID

šŸŽ“ Early Academic Pursuits

Dr. Nga Ongodo’s academic foundation was laid with a Baccalaureate in Mathematics and Physics from LycĆ©e dā€™Obala (2004ā€“2005). He then enrolled at the University of YaoundĆ© I, completing his Undergraduate studies in Physics (2005ā€“2010), followed by a Masterā€™s Degree in Physics (2011ā€“2013), and later earning a PhD in Nuclear Physics in 2020. His academic trajectory reflects a strong grounding in core and advanced physics disciplines, preparing him for a research-intensive career.

šŸ§‘ā€šŸ« Professional Endeavors

Over more than a decade, Dr. Nga Ongodo has built a distinguished academic career. Since May 2023, he serves as a Senior Lecturer at the University of YaoundĆ© I, having previously worked as an Assistant Lecturer (2021ā€“2023) and Part-time Teacher (2014ā€“2021) in the same department. Beyond academia, he also lectures at Institut Universitaire la Vision and previously at Institut Universitaire Sup PrĆ©pa, further demonstrating his commitment to educational development. Additionally, he plays a pivotal role in public contract regulation as a recognized expert for both the Regulatory Agency of Public Contracts (ARMP) and the Ministry of Public Contracts.

šŸ§Ŗ Contributions and Research Focus

Dr. Nga Ongodo is a dynamic and innovative researcher whose work spans several cutting-edge domains in physics. His expertise includes nuclear instrumentation, FPGA systems, digital signal and pulse processing (DSP, DPP), and radiation dosimetry. He has also contributed to the use of artificial neural networks in analyzing mass spectra, and explores quantum mechanics and SU(3) symmetry through advanced mathematical models. By integrating fractional calculus, Bohr Hamiltonian formalism, and quark models, he provides deep insight into atomic nuclei and particle interactions. His research bridges theory and application, advancing nuclear physics both locally and globally.

šŸŒ Impact and Influence

Dr. Nga Ongodoā€™s scientific influence transcends national borders. He has participated in prominent international workshops and seminars, including the African School of Fundamental Physics (Rwanda, 2016) and IAEA-AFRA training sessions across Cameroon and Ethiopia. His groundbreaking publications are featured in top-tier journals such as the European Physical Journal, Modern Physics Letters, and the International Journal of Modern Physics, attesting to the global relevance and visibility of his work.

šŸ“ˆ Academic Citations

With 13 peer-reviewed articles published between 2019 and 2025, Dr. Nga Ongodo’s work has received increasing academic attention. He has co-authored papers on topics including heavy pentaquark masses, Bohr Hamiltonian models, and charmonium resonances using both classical physics and AI techniques. His collaborations with other leading African physicists highlight his role as a central figure in nuclear modeling and quantum structure analysis.

šŸ› ļø Research Skills

Dr. Nga Ongodoā€™s research expertise is deeply rooted in a diverse and robust technical skill set that empowers both his investigative pursuits and pedagogical approach. He possesses advanced mastery in nuclear and numerical electronics, as well as specialized experience in detector electronics and FPGA (Field Programmable Gate Array) systems, which are vital for real-time data acquisition and signal processing in nuclear experiments. His strong foundation in mathematical modeling, particularly through sophisticated frameworks such as the Nikiforovā€“Uvarov and Heun methods, allows him to derive analytical solutions for complex quantum systems.

šŸ‘Øā€šŸ« Teaching Experience

A passionate and student-centered educator, Dr. Nga Ongodo has taught an extensive range of subjects including Quantum Physics, Electromagnetism, Fluid Mechanics, Thermodynamics, and Radiation Protection. He is well-versed in both theoretical instruction and practical laboratory supervision. His active engagement in pedagogical development seminars, such as the 2022 Competency-Based Teaching Workshop, showcases his dedication to educational innovation and student success.

šŸ… Awards and Honors

While formal awards are not explicitly listed, Dr. Nga Ongodoā€™s appointments and invited participation in elite research events, including those organized by C.E.T.I.C and the IAEA, serve as implicit recognition of his expertise and leadership. His invitation to speak at the 2025 Radiological Protection Workshop in Cameroon underscores his role as a national thought leader in nuclear safety and public health.

šŸš€ Legacy and Future Contributions

Looking ahead, Dr. Nga Ongodo is set to play an even more significant role in African scientific development, particularly in areas of radiation protection, data-driven nuclear modeling, and sustainable electronics for physics research. His recent work involving Artificial Neural Networks, topological quantum mechanics, and quantum gravity analogues points to a future of interdisciplinary research that bridges AI, quantum systems, and high-energy physics. His legacy will not only be defined by the depth of his research, but also by his transformational impact on Cameroon’s scientific infrastructure, his mentorship of emerging scholars, and his efforts to elevate African research onto the global stage.

Publications Top Notes

Effect of spin-spin interaction and fractional order on heavy pentaquark masses under topological defect space-times

  • Authors: D. Nga Ongodo, A. A. Atangana LikĆ©nĆ©, J. M. Emaā€™a Emaā€™a, P. Ele Abiama, G. H. Ben-Bolie
    Journal: The European Physical Journal C
    Year: 2025

Hyperbolic tangent form of sextic potential in Bohr Hamiltonian: Analytical approach via extended Nikiforovā€“Uvarov and Heun equations

  • Authors: D. Nga Ongodo, A. Atangana LikĆ©nĆ©, A. Zarma, J. M. Emaā€™a Emaā€™a, P. Ele Abiama, G. H. Ben-Bolie
    Journal: International Journal of Modern Physics E
    Year: 2025

Electric quadrupole transitions of triaxial nuclei via the Bohr Hamiltonian within the screened Kratzerā€“Hellmann potential

  • Authors: D. Nga Ongodo, A. A. Atangana LikĆ©nĆ©, A. Zarma, S. Haman Adama, J. M. Emaā€™a Emaā€™a, G. H. Ben-Bolie
    Journal: The European Physical Journal Plus
    Year: 2025

Non-compact extra dimensions and flavor dependence of ccĢ„ and bbĢ„ mesons masses in a hot QCD medium with lattice, LO and NLO parametrizations of the Debye mass

  • Authors: A. A. Atangana LikĆ©nĆ©, L. B. Ungem, D. C. Mbah, D. Nga Ongodo, R. Houzibe, F. B. Djeuyi Ndafeun
    Journal: Modern Physics Letters A
    Year: 2025

Quantum chromodynamics Lagrangian density and SU(3) gauge symmetry: A fractional approach

  • Authors: A. A. Atangana LikĆ©nĆ©, D. Nga Ongodo, P. Mah Tsila, A. Atangana, G. H. Ben-Bolie
    Journal: Modern Physics Letters A
    Year: 2024

Mohammed salah Abd El minem | High energy physics | Physics Excellence in Industry Award

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Dr. Mohammed salah Abd El minem | High energy physics | Physics Excellence in Industry Award

Assistant Professor at Physics Department, Faculty of Science, Al-Azhar University, Egypt

Mohamed Salah Abdel-Moneim Youssef is an Assistant Lecturer at the Department of Physics at Al-Azhar University, Assiut, Egypt. He holds a Bachelor’s degree in Physics (2012) and a Master’s degree from Al-Azhar University with a focus on optical properties of BiI3 thin films. He has been actively involved in teaching, research, and scientific activities, contributing significantly to the field of material science and optoelectronics.

šŸ‘Øā€šŸŽ“Profile

Google scholar

ORCID

Early Academic Pursuits šŸŽ“

Mohamed began his academic journey at Al-Azhar University, where he earned his Bachelorā€™s degree in Physics in 2012. His academic prowess and commitment to the field were recognized when he was appointed as a Demonstrator in the Department of Physics in 2018. This early appointment demonstrated his passion for physics and his readiness to contribute to the academic community.

Professional Endeavors šŸ¢

Since 2018, Mohamed has worked as an Assistant Lecturer at Al-Azhar University, where he teaches both undergraduate and preparatory dental students. His teaching responsibilities include specialized courses such as Solid-State Physics, Electronics, Semiconductors, Nuclear Physics, and Modern Physics. His teaching experience reflects his broad knowledge of physics and his ability to simplify complex concepts for diverse student groups.

Contributions and Research Focus šŸ”¬

Mohamedā€™s primary research focuses on material science and optoelectronics, particularly the structural and optical properties of thin films. His Masterā€™s thesis was centered around the impact of gamma-irradiation on BiI3 thin films, aiming to improve optoelectronic devices. Two notable publications emerged from this research, contributing to the understanding of optical parameters in photovoltaic and nonlinear applications.

His PhD research continued to explore materials science, specifically the substitution of BaTiO3 in lead borosilicate glass for ultrasonic applications, published in the Journal of Materials Science: Materials in Electronics.

Impact and Influence šŸŒ

Through his research and academic contributions, Mohamed has played a key role in advancing the study of materials for optoelectronic applications. His work on BiI3 thin films and BaTiO3-substituted borosilicate glass has the potential to impact industries related to photovoltaics, optoelectronics, and ultrasonic technologies. By focusing on improving material properties, his research has practical applications that can enhance the performance and efficiency of various technologies.

Academic Cites šŸ“š

Mohamedā€™s research has garnered recognition in prominent scientific journals. His paper on BaTiO3 substitution in borosilicate glass was published in the Journal of Materials Science: Materials in Electronics (35 (22), 1534). Additionally, his Masterā€™s research resulted in two significant papers that have been well-received in the field of optoelectronics. These publications contribute to the growing body of knowledge in the field of materials science and physics.

Research Skills šŸ”

Mohamed is proficient in a variety of research methodologies, including material characterization techniques such as ball milling, gamma-irradiation, and thin film deposition. He has hands-on experience in structural and optical characterization of materials, specifically in the context of optoelectronic applications. His analytical skills and ability to synthesize complex data enable him to draw meaningful conclusions that enhance our understanding of material properties.

Teaching Experience šŸŽ“

In addition to his research activities, Mohamed has been actively involved in teaching physics since 2018. He has taught a variety of courses, including both general physics and specialized courses in solid-state physics, semiconductors, and nuclear physics. His ability to communicate complex ideas clearly and his commitment to educating the next generation of scientists demonstrate his dedication to academic excellence.

Legacy and Future Contributions šŸš€

Looking forward, Mohamed is poised to continue making significant contributions to materials science and optoelectronics. His ongoing research, particularly in optical and ultrasonic technologies, holds immense potential for future industrial applications. As he continues to expand his research, collaborate with other researchers, and enhance his teaching, Mohamed will likely leave a lasting impact on both the academic and industrial communities.

Publications Top Notes

Structural and optical investigations of multi-component lead-borosilicate glasses containing PbO, BaO, and TiO2

  • Authors: M. Salah, El Sayed Moustafa, A.A. Showahy
    Journal: Optical Materials
    Year: 2025

Influence of BaTiO3 substitution on structural and thermal response of lead borosilicate glass for ultrasonic applications

  • Authors: M. Salah, El Sayed Moustafa, A.A. Showahy
    Journal: Journal of Materials Science: Materials in Electronics
    Year: 2024

Influence of Ī³-irradiation dose on the structure, linear and nonlinear optical properties of BiI3 thick films for optoelectronics

  • Authors: AM Abdelnaeim, M Salah, E Massoud, A EL-Taher, ER Shaaban
    Journal: Digest Journal of Nanomaterials & Biostructures (DJNB)
    Year: 2022

Optical parameters of various thickness of bismuth (III) iodide thin films for photovoltaic and nonlinear applications

  • Authors: M Salah, A Abdelnaeim, S Makhlolf, A El-Taher, ER Shaaban
    Journal: International Journal of Thin Film Science & Technology
    Year: 2022

A new one-parameter lifetime distribution and its regression model with applications

  • Authors: MS Eliwa, E Altun, ZA Alhussain, EA Ahmed, MM Salah, HH Ahmed, …
    Journal: PLOS ONE
    Year: 2021