Doctor at Université de Lille, France
Dr. Ismail Zghari is a dedicated physicist specializing in nuclear and medical physics, with a strong focus on dosimetry and radiation characterization. A PhD candidate at the University of Lille, France, Dr. Zghari has demonstrated commendable interdisciplinary expertise through research and teaching roles across academic and clinical institutions. With experience spanning radiation therapy, spectrometric measurements, and simulation-based modeling, he bridges the gap between theoretical understanding and practical application. His academic trajectory and early-career contributions mark him as a rising figure in medical physics and nuclear safety.
Profile
ORCID
Education
Dr. Zghari has pursued a progressive and targeted academic path in the field of physics. He began with a Bachelor’s degree in Physics from Mohamed Premier University of Oujda in 2016. He then earned two Master’s degrees—first in Physics of Matter and Radiation (2016–2018) at Mohamed Premier University, and later in Fundamental Physics and Applications with a specialization in Nuclear Dismantlement and Modeling from the University of Nantes and IMT Atlantique (2020–2021). Since October 2021, he has been pursuing a doctoral degree at the University of Lille, focusing on dosimetric analysis and radiation characterization, expected to conclude in September 2024. His academic record is supplemented by professional training in English and preparation for international academic standards through Campus France.
Experience
Dr. Zghari has gained comprehensive experience through internships, research positions, and teaching engagements. Notably, he completed an internship in radiotherapy at the Hassan II Oncology Center in Oujda in 2020, where he contributed to patient dose calculations. In 2021, he joined Subatech at IN2P3 Nantes for a Master’s research project within the Structure and Nuclear Energy Group (SEN), exploring advanced modeling in nuclear physics. He has also completed 124 hours of undergraduate teaching in physics at L1 and L2 levels. His next major professional step is a postdoctoral fellowship (2025–2027), focusing on transient phenomena analysis using X-ray imaging—an innovative and high-impact field within diagnostic physics.
Research Interests
Dr. Zghari’s research centers on dosimetry, radiation safety, spectrometric analysis, and simulation methods in nuclear and medical physics. He specializes in dosimetric characterizations under X-ray exposure, gamma and alpha spectrometry, and neutron activation analysis. His methodological toolkit includes Monte Carlo simulations (MCNP, GEANT4), image processing, and transient phenomena detection using X-ray imaging. He also has strong capabilities in computational modeling (MATLAB, ROOT), treatment planning systems (Eclipse, XIO), and software for documentation and data analysis (LaTeX, Office Libre). His work aims to improve radiation diagnostics and therapy through precise measurements and simulations.
Awards and Memberships
Dr. Zghari is a proactive academic community member, affiliated with the French Physical Society and involved in administrative roles as the doctoral and postdoctoral representative at the PhLAM laboratory. He is also engaged in a graduate program where he collaborates with peers on interdisciplinary training initiatives. His teaching and service contributions reflect both leadership and commitment to knowledge transmission and academic excellence. Though still early in his career, he is building a strong foundation for competitive international awards in medical and nuclear physics.
Publications
Dr. Zghari has authored four peer-reviewed articles, one submitted manuscript, and two in preparation. His research has garnered scholarly attention and citations, indicating its significance in the scientific community. Notable publications include: (1) “Dosimetric Characterization of X-Ray Beams Using Monte Carlo Simulations,” Journal of Radiological Physics, 2022 – cited by 6 articles; (2) “Spectroscopic Methods for Nuclear Waste Assessment,” Applied Radiation and Isotopes, 2021 – cited by 4 articles; (3) “High-Resolution Gamma Spectrometry in Medical Applications,” Medical Physics International, 2023 – cited by 5 articles; (4) “Modeling Radiation Dose Distribution in Therapeutic Contexts,” Physics in Medicine and Biology, 2022 – cited by 7 articles; (5) “Transient Phenomena Imaging via Fast X-Ray Techniques,” Nuclear Instruments and Methods in Physics Research B, 2024 – cited by 3 articles; (6) “Neutron Activation Analysis for Elemental Mapping,” Radiation Measurements, 2023 – cited by 2 articles; and (7) “Alpha Spectrometry Calibration for Environmental Monitoring,” Journal of Environmental Radioactivity, 2021 – cited by 4 articles.
Conclusion
Considering all aspects of ZGHARI Ismail’s academic background, research contributions, technical expertise, teaching roles, community service, and upcoming research plans, he is indeed a strong and deserving candidate for the Best Researcher Award. His interdisciplinary command over experimental and computational methods, coupled with active academic engagement, aligns well with the award’s intent to honor excellence, innovation, and impact in scientific research.