Assist. Prof. Dr. Dinesh Kumar Chaudhary | Physics | Research Excellence Award

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Assist. Prof. Dr. Dinesh Kumar Chaudhary | Physics | Research Excellence Award

Assistant Professor | Tribhuvan University | Nepal

Assist. Prof. Dr. Dinesh Kumar Chaudhary is an accomplished academic and researcher with strong expertise in Physics, actively contributing to experimental and applied Physics with emphasis on semiconductor Physics, materials Physics, sensor Physics, and nanostructured systems. His work in Physics integrates thin film Physics, gas sensing Physics, optical Physics, and electrical Physics, demonstrating consistent advancement of Physics driven solutions for real world applications. He has authored multiple peer reviewed publications in reputed journals, reflecting sustained impact in Physics research and interdisciplinary Physics collaboration with international scientists. His Physics contributions have supported advancements in sensing technologies, energy related Physics applications, and applied Physics methodologies relevant to industry and society. Through active collaboration, peer review service, and scholarly dissemination, he strengthens the global Physics community and promotes responsible Physics research aligned with societal needs. His academic service and research engagement highlight a commitment to high quality Physics education, innovation in Physics experimentation, and knowledge transfer through Physics based solutions that support technological and environmental progress. Scopus profile of 277 Citations, 24 Documents, 11 h index.

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Sensing Performance of a ZnO-based Ammonia Sensor

Journal of Physical Science, 2022
Cited by 40

Dr. Anca Melintescu | Nuclear Physics | Research Excellence Award

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Dr. Anca Melintescu | Nuclear Physics | Research Excellence Award

Senior Scientist First Degree equivalent to Professor | Horia Hulubei National Institute of Physics and Nuclear Engineering | Romania

Dr. Anca Melintescu is an internationally recognized researcher whose work demonstrates sustained excellence in Nuclear Physics with a strong focus on Nuclear Physics applications to environmental systems, radiological impact assessment, and risk modeling. Her expertise in Nuclear Physics integrates advanced mathematical modeling, Nuclear Physics based transfer processes of radionuclides, and Nuclear Physics driven assessment frameworks used at global level. She has authored and coauthored more than forty peer reviewed scientific publications, with extensive citations reflecting the relevance of her Nuclear Physics contributions. Her research collaborations span major international institutions and agencies, where her Nuclear Physics knowledge supports harmonized methodologies, decision support tools, and scientific guidance. Through advisory roles and editorial activities, she has strengthened the global Nuclear Physics research ecosystem and ensured high scientific standards. Her work in Nuclear Physics has delivered measurable societal impact by improving environmental safety, public exposure assessment, and policy relevant decision making. Her sustained leadership and collaboration in Nuclear Physics continue to influence international best practices and scientific innovation. Scopus profile of 519 Citations, 44 Documents, 14 h-index.

Citation Metrics (Scopus)

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519

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44

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14

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Featured Publications

Zhen Wang | Nuclear Physics | Research Excellence Award

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Mr. Zhen Wang | Nuclear Physics | Research Excellence Award

Associate Professor | China Institute for Radiation Protection | China

Mr. Zhen Wang is a dedicated researcher whose work reflects a strong commitment to advancing Nuclear Physics through practical innovation and scientific rigor. His professional contributions focus on Nuclear Physics applications in nuclear air cleaning technology and radioactive gas purification, where he has played a meaningful role in strengthening safety standards within environments that rely on Nuclear Physics operational systems. Through his continuous involvement in research activities, Mr. Zhen Wang has developed insights that support the progress of experimental and applied Nuclear Physics, especially in areas that intersect environmental protection and radiation control. His engagement with Nuclear Physics has allowed him to participate in collaborative studies that enhance purification mechanisms and improve technological frameworks used in Nuclear Physics laboratories and industrial facilities. He has contributed to research efforts that integrate Nuclear Physics with engineering based solutions, generating outcomes that offer societal benefits by promoting safer handling of radioactive materials. His professional path demonstrates a consistent alignment with Nuclear Physics oriented problem solving, supported by active participation in projects related to environmental radiation management. Mr. Zhen Wang continues to strengthen his expertise in Nuclear Physics by contributing to scientific discussions, sharing research findings, and engaging with multidisciplinary teams that focus on practical improvements within Nuclear Physics systems. His growing scholarly presence supports broader goals in Nuclear Physics and reinforces the importance of developing technologies that protect public health and environmental stability. His ongoing work reflects precision, analytical depth, and a sustained commitment to research advancement within the global Nuclear Physics community. This profile acknowledges his contribution to Nuclear Physics and highlights his continued dedication to meaningful scientific development. Scopus profile of 11 Citations, 3 Documents, 3 h-index.

Profile: Scopus

Featured Publication

1. Study on fire safety assessment of nuclear grade activated carbon. Progress in Nuclear Energy. (2024)

Assoc. Prof. Dr. Longxiang Liu | Photonuclear Physics | Excellence in Innovation

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Assoc. Prof. Dr. Longxiang Liu | Photonuclear Physics | Excellence in Innovation

Associated Researcher | Shanghai Advanced Research Institute | China

Assoc. Prof. Dr. Longxiang Liu is a distinguished researcher whose work in Photonuclear Physics has significantly advanced experimental nuclear science and precision measurement studies. His sustained contributions to Photonuclear Physics reflect a strong command of detector development, beamline optimization, and advanced spectrometry. His research in Photonuclear Physics has supported the design and enhancement of major synchrotron and gamma source facilities, where he has consistently demonstrated leadership in collaborative scientific programs. Through active participation in numerous national research projects, he has strengthened the role of Photonuclear Physics in understanding reaction mechanisms, photon induced processes, and nuclear structure behavior. His publications highlight impactful findings in Photonuclear Physics, including precise cross section measurements, high fidelity radiation response modeling, and data driven approaches to photon based nuclear interactions. He has contributed to the development of critical instrumentation that supports Photonuclear Physics experiments, including spectrometers, automatic data acquisition systems, and detector calibration procedures. His collaborative work with multidisciplinary teams further expands the reach of Photonuclear Physics into applications such as isotope production, nuclear safety analysis, and advanced imaging methods. The influence of his research is evident through his numerous peer reviewed papers, patents, and contributions to facility level scientific advancements. As an active contributor to Photonuclear Physics communities, he continues to foster research environments that emphasize innovation, methodological rigor, and scientific impact. His work demonstrates how Photonuclear Physics can serve both fundamental discovery and practical technological development, positioning him as a key figure in this evolving field. His growing citation record and research collaborations illustrate the expanding global relevance of his findings and his commitment to strengthening Photonuclear Physics as a core pillar of nuclear science. Scopus profile of 945 Citations, 73 Documents, 16 h-index.

Profile: Scopus

Featured Publications

1. Authors. (2026). Direct unfolding determination of energy spectra using a LaBr₃ detector for SLEGS. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment.

2. Authors. (2026). PCSa: A tool for photoneutron cross section measurement data analysis at SLEGS. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment.

3. Authors. (2025). A substitution measurement for cross section of 65Cu(γ, n)64Cu reaction using natCu and 63Cu targets by quasi-monoenergetic γ beams at SLEGS. Nuclear Science and Techniques.

4. Authors. (2025). Photoneutron cross-section data generation and analysis at the Shanghai laser electron gamma source. Nuclear Science and Techniques.

5. Authors. (2025). Experimental extraction of neutron resonance parameters at 20–300 eV for 147,149Sm. Nuclear Science and Techniques.

Assist. Prof. Dr. Vladimir A. Pakhotin | Physics and Astronomy | Best Researcher Award

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Assist. Prof. Dr. Vladimir A. Pakhotin | Physics and Astronomy | Best Researcher Award

Senior Research Scientist | Ioffe Institute | Russia

Assist. Prof. Dr. Vladimir A. Pakhotin has made significant contributions to the interdisciplinary field of Physics and Astronomy, advancing research in electron emission and the electro-physical properties of polymers. His extensive background in Physics and Astronomy from the Saint-Petersburg State Polytechnic University and the Ioffe Institute laid the foundation for his innovative studies in the emission of charged particles and electrical breakdown phenomena. Throughout his professional journey as a Senior Researcher at the Strength Physics Laboratory, he has exemplified excellence in experimental Physics and Astronomy, merging theoretical insight with practical investigation. His research interest in Physics and Astronomy focuses on understanding the structural behavior of materials under varying electromagnetic conditions, contributing valuable data to polymer physics and electronic material design. Recognized for his prolific scholarly output, with over 150 publications, he stands as a respected figure in Physics and Astronomy. His awards and honors highlight his dedication to advancing material science and Physics and Astronomy innovation. His research skills encompass advanced instrumentation, emission analysis, and material characterization techniques that enhance discoveries in Physics and Astronomy. In conclusion, Assist. Prof. Dr. Vladimir A. Pakhotin’s lifelong pursuit of knowledge continues to inspire new generations of scientists, reinforcing the global impact of Physics and Astronomy research. His Scopus profile of 125 Citations, 28 Documents, 7 h-index.

Profiles: Scopus | ORCID

Featured Publications

1. Pakhotin, V. A., Semenov, S. E., & Sudar, N. T. (2025). Increasing the lifetime of polymer dielectrics in an AC field by using phosphorescent dopants: Theoretical justifications and numerical simulation. Journal of Applied Physics.

2. Pakhotin, V. A., & Semenov, S. E. (2024). Redistribution of electric field strength in insulation using electrets. IEEE Transactions on Dielectrics and Electrical Insulation.

3. Semenov, S. E., Sudar, N. T., & Pakhotin, V. A. (2024, October 17). Pulse electrical strength of polymer dielectric films. 2024 International Conference on Electrical Engineering and Photonics (EExPolytech).

4. Pakhotin, V. A., & Semenov, S. E. (2024, September 28). Charge stabilization in corona electrets made of HDPE film due to the formation of deep electron traps during its orientational stretching. Journal of Applied Physics.

5. Tipikin, A. A., Pakhotin, V. A., & Potapov, D. S. (2024, July 3). Technique for automatic profiling of underlying surface electric parameters on the very low frequencies radio path. Proceedings of Telecommunication Universities.

Prof. Nikolai V. Gaponenko | Physics | Best Researcher Award

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Prof. Nikolai V. Gaponenko | Physics | Best Researcher Award

Professor | Belarusian State University of Informatics and Radioelectronics  | Belarus

Prof. Nikolai V. Gaponenko, a distinguished figure in physics, serves as Head of the Laboratory of Nanophotonics at the Belarusian State University of Informatics and Radioelectronics, where his extensive contributions to solid-state physics and nanophotonics have gained international recognition. His education in physics laid a robust foundation for pioneering research in optically anisotropic materials and sol-gel synthesis within the physics of photonic band gap structures. Throughout his professional experience, Prof. Gaponenko has led numerous interdisciplinary physics collaborations with global institutes, advancing luminescence technologies and nanostructure fabrication. His physics research encompasses photonic crystals, perovskite nanocomposites, and upconversion luminescence phenomena, with over a hundred high-impact publications and patents that redefine the role of physics in material design. Honored with several research distinctions, he has strengthened Belarus’s scientific presence through innovative physics-based solutions for electronic and photonic applications. His exceptional physics skills include experimental synthesis, spectroscopic analysis, and photonic modeling that bridge theory and engineering in nanophotonics. As an educator and physicist, he integrates practical and theoretical physics with creativity and leadership, inspiring scientific excellence. Prof. Nikolai V. Gaponenko’s career embodies the transformative potential of physics in shaping sustainable technological progress through deep insight, research integrity, and global collaboration.

Profiles: Google Scholar | ORCID

Featured Publications

1. Bogomolov, V. N., Gaponenko, S. V., Germanenko, I. N., Kapitonov, A. M., et al. (1997). Photonic band gap phenomenon and optical properties of artificial opals. Physical Review E, 55(6), 7619.

2. Dorofeev, A. M., Gaponenko, N. V., Bondarenko, V. P., Bachilo, E. E., Kazuchits, N. M., et al. (1995). Erbium luminescence in porous silicon doped from spin‐on films. Journal of Applied Physics, 77(6), 2679–2683.

3. Gaponenko, N. V., Davidson, J. A., Hamilton, B., Skeldon, P., Thompson, G. E., et al. (2000). Strongly enhanced Tb luminescence from titania xerogel solids mesoscopically confined in porous anodic alumina. Applied Physics Letters, 76(8), 1006–1008.

4. Lutich, A. A., Gaponenko, S. V., Gaponenko, N. V., Molchan, I. S., Sokol, V. A., et al. (2004). Anisotropic light scattering in nanoporous materials: A photon density of states effect. Nano Letters, 4(9), 1755–1758.

5. Gaponenko, N. V. (2001). Sol–gel derived films in meso-porous matrices: porous silicon, anodic aluminum and artificial opals. Synthetic Metals, 124(1), 125–130.

Ms. Mahsa Ejtema| Medical Physcis | Best Researcher Award

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Ms. Mahsa Ejtema| Medical Physcis | Best Researcher Award

Ms. Mahsa Ejtema, Ahvaz Jundishapur University of Medical Sciences, Iran

Mahsa Ejtema holds an M.Sc. in Medical Physics with a minor in Radiation Biology from Ahvaz Jundishapur University of Medical Sciences, Ahvaz, Iran, where she achieved a GPA of 19.24/20 (Sep 2020 – Oct 2023). She also earned a B.Sc. in Radiation Therapy from Babol University of Medical Sciences, Babol, Iran, with a GPA of 17.80/20 (Sep 2016 – July 2020). Prior to her university education, she completed her high school education with a focus on Life Sciences at the National Organization for Development of Exceptional Talents (Sampad) in Tehran, Iran, achieving a GPA of 19.94/20 (Sep 2009 – Aug 2016).

PROFILE

Scopus

Academic Background

M.Sc. in Medical Physics (Minor: Radiation Biology), Ahvaz Jundishapur University of Medical Sciences, Ahvaz, Iran (Sep 2020 – Oct 2023)

B.Sc. in Radiation Therapy, Babol University of Medical Sciences, Babol, Iran (Sep 2016 – July 2020)

High School Diploma in Life Sciences, National Organization for Development of Exceptional Talents (Sampad), Tehran, Iran (Sep 2009 – Aug 2016)

Research Experience:

M.Sc. Thesis (Aug 2022 – Sep 2023)

Title: Investigation of chemoradiation effect of cisplatin in combination with Copper-Cysteamine nanoparticles on HeLa cervical cancer cells

Supervisor: Dr. Nahid Chegeni

Books

Second Author: “Introduction to Laser Science and Technology: Physics, Medical Applications, and Safety”

First Author: Dr. Nahid Chegeni

Published: September 2023

ISBN: 978-622-294-491-9

Honors

Ranked 38th out of 1000+ on the Medical Physics master’s entrance exam

Dean’s List (all semesters) throughout master’s studies

Research Interests

Chemoradiation therapy

Nanoparticle-mediated cancer treatments

Radiation biology

Medical applications of laser technology

NOTABLE PUBLICATIONS

Exploring the combined impact of cisplatin and copper-cysteamine nanoparticles through Chemoradiation: An in-vitro study