Dr. Radomira Lozeva - Computational Methods - Best Researcher Award 

CNRS - France

Author Profile

Scopus

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🎓 Early Academic Pursuits

Dr. Radomira Lozeva's academic journey began with her Ph.D. at GSI Darmstadt, Germany (2001-2005), and the Faculty of Physics, University of Sofia, Bulgaria (2002-2006). During this period, she contributed to the design and construction of the CAlorimeter TElescope for the RISING project, focusing on in-beam γ-ray spectroscopy. This early experience solidified her expertise in nuclear physics and established her foundation in computational methods applied to heavy-ion reactions and detector technology.

💼 Professional Endeavors

Dr. Lozeva's professional career has been marked by her extensive postdoctoral research across several renowned institutions. After completing her Ph.D., she held postdoctoral positions at institutions like K. Universiteit Leuven (2006-2007) and the Université Paris Sud 11 (2007-2010). Her work during this period involved constructing ion-validation detectors, conducting magnetic moment measurements, and utilizing computational methods such as Monte Carlo and Geant4 simulations to optimize experimental setups. Her research extended into neutron-rich isotopes and nuclear moment studies, significantly contributing to nuclear structure research.

🔬 Contributions and Research Focus

Dr. Lozeva's contributions to nuclear physics revolve around the study of nuclear moments, isomer spectroscopy, and sub-nanosecond state lifetime measurements. She has been actively involved in designing, integrating, and optimizing advanced detection systems for facilities like S3/SPIRAL2, RIKEN, GANIL, and GSI/FAIR. Through her work on Monte Carlo simulations, beam tracking, and full setup calculations, she has utilized computational methods to interpret data from deep-inelastic reactions and β-decay studies. Her leadership as a spokesperson or co-spokesperson in various experiments demonstrates her pivotal role in advancing nuclear research.

🌍 Impact and Influence

Dr. Lozeva’s research has made a lasting impact in the field of nuclear structure and spectroscopy. Her studies on neutron-rich isotopes, particularly around Sn-132, have influenced how nuclear moments are understood and measured. By applying computational methods such as Geant4 for setup simulations and data analysis, Dr. Lozeva has helped refine experimental techniques and contribute to more accurate nuclear models. Her work has been crucial for projects like gSPEC/DESPEC and RISING, leading to a better understanding of nuclear processes and isomeric states.

🏆Academic Cites

Dr. Lozeva’s academic contributions are well-recognized, with her work cited in numerous scientific journals. She has served as a referee for leading publications like Nucl. Instr. Meth. Phys. Res., Phys. Rev. C, and Phys. Lett. B, highlighting her authority in nuclear physics and computational simulations. Her involvement in prestigious conferences, workshops, and scientific boards has furthered her influence within the academic community.

🌟 Legacy and Future Contributions

Dr. Lozeva’s legacy is marked by her dedication to advancing nuclear physics through both experimental and theoretical approaches. Her ongoing research and development of new experimental setups for gSPEC/DESPEC will continue to shape future nuclear moment studies. By mentoring students and postdocs, and securing research grants, she has also ensured that her work will inspire the next generation of physicists. Her expertise in computational methods will remain a critical asset as she continues to contribute to the broader field of nuclear structure.

📝Computational Methods 

Throughout her career, Dr. Lozeva has extensively used computational methods such as Monte Carlo simulations and Geant4 to design experiments and analyze nuclear reactions. This has been pivotal in her research on nuclear moments and isotopic studies, making her contributions invaluable to the field of nuclear physics.

Notable Publication


📝Correction to: Nuclear-moment measurement using highly spin-aligned RI beams: Recent activities at RIBF

Authors: Ichikawa, Y., Shinohara, Y., Go, S., Yoshimoto, M., Daugas, J.M.

Journal: Interactions

Year: 2024


📝Geant4 simulations for the γ-ray detectors of gSPEC at GSI/FAIR

Authors: Piau, V., Lozeva, R., Ramarijaona, H., Rosier, P., Sigward, M.-H.

Journal: Nuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms

Year: 2024


📝The shape of the Tz = +1 nucleus 94Pd and the role of proton-neutron interactions on the structure of its excited states

Authors: Yaneva, A., Jazrawi, S., Mikołajczuk, M., Woods, P., Zimba, G.

Journal: Physics Letters, Section B: Nuclear, Elementary Particle and High-Energy Physics

Year: 2024


📝COeCO: A new β-delayed conversion-electron spectroscopy setup for low-energy ISOL beams at the ALTO facility in Orsay

Authors: Tocabens, G., Delafosse, C., Verney, D., Segovia-Miranda, A., Thoër, R.

Journal: Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment

Year: 2024


📝Electromagnetic transition rates in the nucleus 13658Ce

Authors: Gladnishki, K.A., Atanasova, L., Blazhev, A., Stoyanova, M., Stoychev, K.

Journal: Physica Scripta

Year: 2024

Radomira Lozeva – Computational Methods – Best Researcher Award 

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