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.

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Assoc. Prof. Dr. Nermeen Mohamed Sayed Ahmed Badr Elbakary | Nuclear Physics | Research Excellence Award

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Assoc. Prof. Dr. Nermeen Mohamed Sayed Ahmed Badr Elbakary | Nuclear Physics | Research Excellence Award

Associate professor | Egyptian Atomic Energy Authority | Egypt

Assoc. Prof. Dr. Nermeen Mohamed Sayed Ahmed Badr Elbakary is a distinguished researcher recognized for her impactful scientific contributions and advanced work in radiobiology, radiation biochemistry, radioprotection, and translational cancer research within the broader sphere of Nuclear Physics applications. Her research output reflects a strong foundation in experimental radiation science and therapeutic modulation, anchored in Nuclear Physics principles and developed through extensive laboratory, preclinical, and molecular investigations. She has established a significant academic footprint through peer-reviewed publications, collaborative research activities, and innovative projects that support safe and beneficial integration of Nuclear Physics in medicine, health, and radiation-based disease management. Her professional trajectory demonstrates leadership in the interface between biochemical systems and ionizing radiation mechanisms, bringing the precision of Nuclear Physics into cancer therapy, oxidative stress regulation, radiotracer development, radiosensitization, and tissue-protective strategies. Her multidisciplinary approach links biochemical pathways, immune regulation, molecular signaling, and toxicological markers with radiation exposure outcomes, reinforcing the translational value of Nuclear Physics in understanding cellular responses and advancing therapeutic interventions. Through research collaborations across biochemistry, molecular oncology, pharmacology, and imaging sciences, she has contributed to improved diagnostic and therapeutic solutions that benefit public health and global scientific progress. Her publications, experimental investigations, and continuous participation in scientific conferences reflect her commitment to expanding knowledge in Nuclear Physics, supporting the development of new radioprotectants, natural compounds, radiopharmaceuticals, and imaging tools. Her academic service includes research supervision, manuscript review for recognized journals, laboratory and project management, and active contribution to scientific communities working in radiation-linked biomedical innovation. Her work strengthens the strategic role of Nuclear Physics in clinical safety, cancer therapeutics, biological protection, and medical advancement, generating outcomes of scientific and societal importance. Her Google Scholar profile indicates 327 Citations, 12 h-index, 12 i10-index.

Profiles: Google Scholar | ORCID

Featured Publications

1. El Bakary, N. M., Alsharkawy, A. Z., Shouaib, Z. A., & Barakat, E. M. S. (2020). Role of bee venom and melittin on restraining angiogenesis and metastasis in γ-irradiated solid Ehrlich carcinoma-bearing mice. Integrative Cancer Therapies, 19, 1534735420944476.

2. Medhat, A. M., Azab, K. S., Said, M. M., El Fatih, N. M., & El Bakary, N. M. (2017). Antitumor and radiosensitizing synergistic effects of apigenin and cryptotanshinone against solid Ehrlich carcinoma in female mice. Tumor Biology, 39(10), 1010428317728480.

3. Hafez, E. N., Moawed, F. S. M., Abdel-Hamid, G. R., & Elbakary, N. M. (2020). Gamma radiation-attenuated Toxoplasma gondii provokes apoptosis in Ehrlich ascites carcinoma-bearing mice generating long-lasting immunity. Technology in Cancer Research & Treatment, 19, 1533033820926593.

4. Azab, K. S., Maarouf, R. E., Abdel-Rafei, M. K., El Bakary, N. M., & Thabet, N. M. (2022). Withania somnifera (Ashwagandha) root extract counteract acute and chronic impact of γ-radiation on liver and spleen of rats. Human & Experimental Toxicology, 41, 09603271221106344.

5. Elbakry, M. M. M., ElBakary, N. M., Hagag, S. A., & Hemida, E. H. A. (2023). Pomegranate peel extract sensitizes hepatocellular carcinoma cells to ionizing radiation, induces apoptosis and inhibits MAPK, JAK/STAT3, β-catenin/NOTCH, and SOCS3 signaling. Integrative Cancer Therapies, 22, 15347354221151021.

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)

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

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

Post-Doctoral Researcher | University of Geneva | Switzerland

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

Profiles: Scopus | ORCID

Featured Publications

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

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

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

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

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

Dr. Abouzar Bahari | Nuclear Physics | Best Researcher Award

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Dr. Abouzar Bahari | Nuclear Physics | Best Researcher Award

CEO | Bahari Research and Development | Oman

Dr. Abouzar Bahari is a distinguished scholar and researcher whose academic and professional journey reflects a deep commitment to Nuclear Physics, with a Ph.D. in Nuclear Physics from Payame-Noor University, alongside advanced studies in Genetics, Petroleum Engineering, and Mining Engineering, enabling him to bridge multidisciplinary fields through innovative research. His career includes leadership as CEO and Founder of Bahari Research and Development in Muscat, Oman, invited lectureships at Ferdowsi University of Mashhad, and extensive engineering experience in oil and gas production, all while advancing Nuclear Physics research through Monte Carlo simulations, particle radiation modeling, relativity, zero-point field analysis, and electromagnetic field applications in health sciences. His Nuclear Physics dissertation on predicting rock and fault failure has been recognized with prestigious awards, including a Best Researcher Award, and his consistent ranking among top graduates further validates his expertise. As a prolific contributor to scientific journals, reviewer, and editorial board member, Dr. Bahari has authored impactful works on earthquake precursors, neutron interactions, and Nuclear Physics-based simulations. His research interests span physics, cancer therapy with ultra-low frequency fields, and interdisciplinary applications of Nuclear Physics in geology, health, and energy systems. With advanced computational and simulation skills in MCNPX, MATLAB, Python, and visualization software, he combines technical mastery with scientific creativity. Overall, Dr. Bahari exemplifies how Nuclear Physics can integrate with diverse domains to generate solutions with global impact, and his career stands as a model of excellence in research, innovation, and education.

Profiles: Google Scholar | ORCID

Featured Publications

1. Bahari, A., & Seyed, A. B. (2007, April). Trust-region approach to find constants of Bourgoyne and Young penetration rate model in Khangiran Iranian gas field (SPE-107520-MS). SPE Latin America and Caribbean Petroleum Engineering Conference, Buenos Aires, Argentina. Society of Petroleum Engineers.

2. Bahari, A., & Baradaran Seyed, A. (2009). Drilling cost optimization in a hydrocarbon field by combination of comparative and mathematical methods. Petroleum Science, 6(4), 451–463.

3. Moradi, H., Bahari, M. H., Sistani, M. B. N., & Bahari, A. (2010). Drilling rate prediction using an innovative soft computing approach. Scientific Research and Essays, 5(13), 1583–1588.

4. Bahari, M. H., Bahari, A., Moharrami, F. N., & Sistani, M. B. (2008). Determining Bourgoyne and Young model coefficients using genetic algorithm to predict drilling rate. Journal of Applied Sciences, 8(17), 3050–3054.

5. Hassan, B. M., Aboozar, B., & Hamidreza, M. (2011). Intelligent drilling rate predictor. International Journal of Innovative Computing, Information and Control, 7(4), 1425–1436.