Dhanpat Sharma | Nuclear Physics | Best Researcher Award

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Dr. Dhanpat Sharma | Nuclear Physics| Best Researcher Award

Reserch Scholar at Central University of Haryana, India

Dhanpat Sharma 🎓, a passionate physicist from Haryana, India 🇮🇳, recently submitted his Ph.D. thesis in Physics at the Central University of Haryana 📚. His research focuses on the simulation of magnetic field generation during heavy ion collisions 💥, and the impact of low-intensity magnetic fields on environmental systems 🌱. Skilled in nanoparticle synthesis 🧪 and material integration 🔬, he bridges theoretical and experimental physics with ease. With academic roots from Delhi University 🏛️ and MDU Rohtak, Dhanpat is on a journey to contribute significantly to nuclear and environmental physics 🌍.

Professional Profile:

Orcid

Scopus

🔹 Education & Experience 

  • 🎓 Ph.D. (Physics) – Central University of Haryana (2019–2025)
    🧠 Thesis: Nuclear Flow, Nuclear Stopping, Magnetic Field & their Correlations

  • 📘 M.Sc. (Physics) – Maharishi Dayanand University, Rohtak (2016–2018)

  • 📗 B.Sc. (PCM) – Kirori Mal College, University of Delhi (2012–2016)

  • 🔬 Research Experience – Theoretical modeling & experimental work in magnetism, heavy ion collisions, and nanomaterials.

🔹 Professional Development 

Throughout his academic journey 📘, Dhanpat Sharma has developed a robust skill set in both theoretical physics 🧠 and experimental techniques 🔬. His Ph.D. work equipped him with simulation tools to explore nuclear matter behavior during heavy ion collisions 💥. On the experimental side, he explored the applications of low-intensity magnetic fields 🌌 in environmental setups 🌱. He has synthesized various nanoparticles 🧪 and studied their multifunctional integration with other materials. His interdisciplinary outlook, from nuclear physics to nanoscience, reflects his commitment to scientific growth 🚀 and collaborative innovation 🤝.

🔹 Research Focus Area 

Dhanpat Sharma’s research focus lies at the intersection of nuclear physics ⚛️ and magneto-environmental applications 🌍. He investigates the generation and role of magnetic fields in heavy ion collisions 💥 using theoretical simulation frameworks. Additionally, he has a hands-on background in applying low-intensity magnetic fields in experimental setups related to environmental science 🌿. His material science expertise includes synthesizing nanoparticles 🧪 and integrating them into multi-material systems 🔗. This dual approach, bridging fundamental particle interactions and real-world environmental impacts, defines his unique research identity 🔬.

🔹 Awards and Honors 

  • 🏅 Ph.D. Research Fellowship – Central University of Haryana

  • 🎖️ Merit-based Selection – M.Sc. Physics at MDU, Rohtak

  • 🏆 Consistent Academic Performer – B.Sc. at Kirori Mal College, Delhi University

Publication Top Notes

1. Magnetic field and dissolved oxygen assisted ultra-high photocatalytic activity of α-γ-Fe₂O₃ heterophase wrapped with rGO sheets for the removal of rifampicin

Journal: Applied Materials Today
Publication Date: June 2025
DOI: 10.1016/j.apmt.2025.102706
Highlights:

  • Focus on environmental remediation.

  • Enhanced photocatalysis using α-γ-Fe₂O₃/rGO.

  • Magnetic field and dissolved O₂ boost efficiency for antibiotic degradation.

2. Waste toner derived Fe₃O₄ nanoparticles embedment into PANI matrix as an advanced electrode for supercapacitor

Journal: Physica Scripta
Publication Date: April 2, 2025
DOI: 10.1088/1402-4896/adc844
Author: Dhanpat Sharma
Highlights:

  • Recycling waste toner to synthesize Fe₃O₄ NPs.

  • Polyaniline (PANI) matrix improves electrochemical performance.

  • Potential application in high-performance supercapacitors.

3. Probing the contribution of various mass fragments in the production of magnetic field during heavy ion collisions

Journal: Nuclear Physics A
Publication Date: March 2025
DOI: 10.1016/j.nuclphysa.2024.123005
Author: Dhanpat Sharma
Highlights:

  • Theoretical investigation of magnetic field generation in heavy-ion collisions.

  • Role of mass fragments in field strength and dynamics.

4. Influence of symmetry energy on electromagnetic field during heavy-ion collisions

Journal: Pramana – Journal of Physics
Publication Date: December 13, 2024
DOI: 10.1007/s12043-024-02860-w
Author: Dhanpat Sharma
Highlights:

  • Analysis of the symmetry energy term in nuclear matter.

  • Effects on electromagnetic field during nuclear collisions.

5. Correlation between magnetic field and nuclear stopping in different rapidity segments during heavy ion collisions

Journal: Journal of Physics G: Nuclear and Particle Physics
Publication Date: May 1, 2024
DOI: 10.1088/1361-6471/ad2e33
Author: Dhanpat Sharma
Highlights:

  • Study of nuclear stopping and magnetic field correlation.

  • Insights into rapidity-dependent nuclear dynamics.

Conclusion

Dhanpat Sharma’s interdisciplinary research combining nuclear physics, simulation techniques, magnetic field studies, and nanotechnology positions him as an emerging and promising researcher. His dual focus on fundamental physics and real-world applications is highly commendable.

 

Bilal Ramzan | Physics | Best Researcher Award

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Dr. Bilal Ramzan | Physics and Astronomy | Best Researcher Award

Assistant Professor at University of Management and Technology Lahore Pakistan, Pakistan.

Dr. Bilal Ramzan is a distinguished astrophysicist and academic affiliated with the University of Agriculture, Faisalabad, Pakistan. As an HEC-approved Ph.D. supervisor, he has made significant contributions to the fields of astrophysics and space sciences. His research primarily focuses on cosmic rays, astrophysical plasma, and interstellar medium dynamics. With a strong academic background and extensive publication record, Dr. Ramzan has established himself as a leading researcher in his domain. He has collaborated with esteemed international scholars and presented his findings at global conferences. His work is widely cited, reflecting its impact on the scientific community. Dr. Ramzan is also deeply involved in mentoring young researchers, guiding them in theoretical and computational astrophysics. His dedication to advancing space sciences in Pakistan and beyond highlights his commitment to academic excellence and scientific discovery.

Professional Profile:

Education

Dr. Bilal Ramzan has a robust academic background, with a Ph.D. in Astronomy and Astrophysics from the Graduate Institute of Astronomy, National Central University, Taiwan, where he graduated in 2021 with a GPA of 3.4/4.0. He holds a Master’s degree in Physics from COMSATS Institute of Information and Technology, Lahore, Pakistan, completed in 2014, and a Bachelor’s degree in Physics from the same institution, obtained in 2011. Additionally, he pursued a Bachelor’s in Education from the University of Education, Lahore, in 2012. His early education includes pre-engineering studies at Nishtar College for Boys, Lahore, and matriculation from Nishtar School for Boys. His strong educational foundation in physics and astrophysics has equipped him with the necessary knowledge and skills to contribute significantly to space sciences and interstellar research.

Professional Experience

Dr. Bilal Ramzan is currently affiliated with the University of Agriculture, Faisalabad, Pakistan, where he serves as a researcher and academic mentor. His role as an HEC-approved Ph.D. supervisor enables him to guide doctoral candidates in cutting-edge astrophysical research. He has an extensive research background in cosmic-ray physics, astrophysical fluid dynamics, and magnetohydrodynamics. Dr. Ramzan has actively participated in numerous international conferences, presenting his findings on cosmic-ray-driven outflows and galactic evolution. His experience extends to collaborative projects with leading space research institutes, where he has contributed to numerical simulations and theoretical modeling of interstellar phenomena. His expertise is sought after for peer reviews, and he serves as a referee for reputed scientific journals in astrophysics. His professional career is marked by a commitment to scientific innovation, interdisciplinary collaboration, and academic leadership.

Research Interest

Dr. Bilal Ramzan’s research interests lie in the study of cosmic rays, astrophysical plasmas, interstellar medium dynamics, and space weather phenomena. He explores the impact of cosmic rays on galactic evolution, particularly in the formation of outflows and winds. His work delves into the behavior of astrophysical fluids under extreme conditions, utilizing magnetohydrodynamic (MHD) models to simulate cosmic-ray interactions. Dr. Ramzan is also interested in the applications of deep learning and quantum computing in astrophysics, focusing on algorithmic approaches to understanding space-time structures such as wormholes. His research integrates computational astrophysics with observational data, aiming to provide deeper insights into cosmic-ray propagation and the thermodynamic behavior of interstellar clouds. Through his studies, he seeks to unravel the fundamental mechanisms governing high-energy astrophysical processes.

Research Skills

Dr. Bilal Ramzan possesses advanced research skills in numerical simulations, theoretical modeling, and data analysis in astrophysics. His expertise in magnetohydrodynamics (MHD) allows him to develop computational models for cosmic-ray interactions and plasma dynamics. He is proficient in coding and utilizing high-performance computing techniques to simulate astrophysical environments. Dr. Ramzan is skilled in analyzing observational data from space telescopes and ground-based observatories, correlating theoretical models with real-world astronomical phenomena. His familiarity with deep learning and quantum algorithms enables him to explore innovative approaches in astrophysical research. He also has strong technical writing skills, with a track record of publishing in high-impact scientific journals. His ability to synthesize complex theoretical concepts into tangible research findings showcases his analytical acumen and scientific rigor.

Awards and Honors

Dr. Bilal Ramzan has received multiple recognitions for his contributions to astrophysical research. He has been invited to present his work at prestigious international conferences, including the COSPAR Scientific Assemblies and ASROC Meetings. His publications in renowned journals such as Astrophysical Journal, Astronomy & Astrophysics, and Scientific Reports reflect the high quality and impact of his research. His contributions to understanding cosmic-ray-driven outflows have been acknowledged by the scientific community, leading to collaborative opportunities with leading researchers. As an HEC-approved Ph.D. supervisor, he has also been recognized for his role in mentoring young scientists and advancing astrophysical research in Pakistan. His work continues to shape the field, earning him accolades for scientific excellence and academic leadership.

Publication Top Notes

  1. Galactic outflows in different geometries
    • Authors: Majeed, U., Ramzan, B.
    • Year: 2025
  2. A fluid approach to cosmic-ray modified shocks
    • Authors: Ramzan, B., Qazi, S.N.A., Salarzai, I., Rasheed, A., Jamil, M.
    • Year: 2024
    • Citations: 1
  3. The formation of invariant optical soliton structures…
    • Authors: Faridi, W.A., Iqbal, M., Ramzan, B., Akinyemi, L., Mostafa, A.M.
    • Year: 2024
    • Citations: 18
  4. Magnetoacoustics and magnetic quantization of Fermi states in relativistic plasmas
    • Authors: Iqbal, A., Rasheed, A., Fatima, A., Ramzan, B., Jamil, M.
    • Year: 2024
  5. Deep learning and quantum algorithms approach to investigating the feasibility of wormholes: A review
    • Authors: Rahmaniar, W., Ramzan, B., Ma’arif, A.
    • Year: 2024
    • Citations: 1
  6. Determination of the optical properties of tungsten trioxide thin film…
    • Authors: Adnan, M., Jamil, M.I., Ramzan, B., Ahmad, A., Ghani, M.U.
    • Year: 2024
  7. Propagation of dust lower hybrid wave in dusty magneto dense plasma…
    • Authors: Yaseen, A., Mir, Z., Ramzan, B.
    • Year: 2024
  8. Continuous solutions of cosmic-rays and waves in astrophysical environments
    • Authors: Irshad, K., Ramzan, B., Qazi, S.N.A., Rasheed, A., Jamil, M.
    • Year: 2023
    • Citations: 1
  9. Transonic plasma winds with cosmic-rays and waves
    • Authors: Ramzan, B., Mir, Z., Rasheed, A., Jamil, M.
    • Year: 2023
    • Citations: 2
  10. Kelvin-Helmholtz instability in magnetically quantized dense plasmas
  • Authors: Rasheed, A., Nazir, A., Fatima, A., Kiran, Z., Jamil, M.
  • Year: 2023

Conclusion

Dr. Bilal Ramzan’s remarkable contributions to astrophysics, his extensive publication record, and his commitment to academic mentorship make him a strong contender for the Best Researcher Award. His expertise in cosmic rays, space plasmas, and astrophysical fluid dynamics is evident in his high-impact research and international collaborations. His ability to integrate computational techniques with observational astrophysics highlights his innovative approach to scientific inquiry. While his achievements are significant, continued interdisciplinary collaborations and the pursuit of larger research grants could further enhance his influence in the field. Overall, Dr. Ramzan stands out as a leading researcher whose work is shaping the future of space science.

Selim Aydin | Nuclear Physics | Best Researcher Award

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 Dr. Selim Aydin | Nuclear Physics | Best Researcher Award

Dr. Selim Aydin, Turkish Energy Nuclear and Mineral Research Agency, Turkey

Dr. selim aydin is an accomplished nuclear physicist specializing in nuclear battery development and radiation material science. Currently, at the Turkish Energy, Nuclear and Mineral Research Agency (TENMAK), he manages cutting-edge projects involving betavoltaic batteries, neutron spectrometry, and radiation detector systems. His expertise spans over a decade in nuclear physics, with a strong foundation in dosimetry and radiation protection.

PROFILE

Scopus profile

Educational Details

Dr. selim aydin holds a Ph.D. in Physics from Yildiz Technical University (2014-2019), where he focused on the development of nuclear battery technologies. His doctoral thesis, titled “Experimental Investigation of Nickel-63 and Promethium-147 Radioisotope-Powered Betavoltaic and Direct Charge Nuclear Batteries,” reflects his work on energy conversion efficiency in nuclear battery systems. He also earned his M.Sc. in Physics from Gazi University (2006-2009), researching algebraic methods in quantum mechanics with a focus on supersymmetric solutions. His academic journey began at Ankara University, where he received his B.Sc. in Physics (2001-2005) and ranked second in his department with a thesis on YBCO superconductors.

Professional Experience

Dr. aydin has been a nuclear physicist at the Turkish Energy, Nuclear and Mineral Research Agency (TENMAK) since 2010. His roles have included serving as a lab supervisor and radiation protection officer in various high-stakes projects. Notably, he led the “Betavoltaic Nuclear Battery Development” project from 2018 to 2023, which involved creating prototypes using beta-radioactive sources like Nickel-63 and Promethium-147. He also worked on the development of a Bonner sphere-based neutron spectrometry system and neutron activation analysis in TENMAK’s Nuclear Research Department. Early in his career (2010-2015), Dr. aydin specialized in dosimetry and calibration within the Secondary Standard Dosimetry Laboratory (SSDL), handling radiological calibrations for X-ray diagnostics and radiotherapy.

Research Interests

Dr. aydin’s research focuses on radiation material science, nuclear battery technology, and neutron spectrometry. He is especially interested in the development of betavoltaic nuclear batteries powered by radioisotopes, radiation detector systems, and semiconductor-based devices for nuclear energy applications. His work also encompasses neutron activation analysis and the macroscopic cross-section measurement for neutron research.

Top Notable Publications

Saltan, F., Şirin, K., Aydın, S., Taşköprü, C., & Yıldırım, Y. (2024). Boron containing polyvinyl alcohol/polyethylene oxide/polyvinyl pyrrolidone composites: Preparation, characterization, gamma radiation shielding and gamma radiation effect on its thermal properties. Radiation Physics and Chemistry, 214, 111261.

Citations: 1

Saltan, F., Şirin, K., Aydın, S., & Yıldırım, Y. (2023). Preparation and characterization of novel boron containing nanocomposites with neutron radiation shielding properties. Polymer Composites, 44(12), 8627–8639.

Citations: 3

Aydın, S., & Kam, E. (2019). Investigation of nickel-63 radioisotope-powered GaN betavoltaic nuclear battery. International Journal of Energy Research, 43(14), 8725–8738.

Citations: 22

Aydın, S., & Kam, E. (2018). Developing of an automation for therapy dosimetry systems by using labview software. Results in Physics, 9, 1007–1015.

Citations: 6

Conclusion

Dr. Selim Aydin’s professional experience, educational background, project leadership, technical skills, and international training align well with the criteria for the Best Researcher Award. His groundbreaking work in nuclear battery technology, neutron spectrometry, and radiation detection exemplifies his dedication to advancing nuclear science. Consequently, Dr. Aydin stands out as a highly qualified candidate for the award due to his impactful research, innovation in nuclear energy solutions, and commitment to international standards in nuclear safety and radiological protection.