I am a biomedical physicist and engineer with a multidisciplinary background at the intersection of physics, biology, and healthcare innovation. I hold an engineering degree, a Master’s in physics, and a PhD in biomedical engineering, where I developed a patented infrared multispectral imaging system for rapid antibiotic resistance detection, combining spectroscopy, instrumentation, and machine learning.
My work sits at the interface between advanced technologies and real-world medical applications. I have experience in both research and healthcare environments, including roles at the CEA and AP-HP, where I worked on complex, high-impact projects in biomedical engineering and health systems.
Driven by a long-standing commitment to patient care, I am currently specializing in medical physics, with a focus on radiation science, imaging, and clinical applications. My goal is to contribute to the development and safe implementation of technologies that directly improve diagnosis, treatment, and patient outcomes.
I bring a rare combination of:
- Deep technical expertise (spectroscopy, imaging, data analysis, instrumentation)
- Strong autonomy and project leadership from PhD-level research
- Interdisciplinary mindset, bridging engineering, biology, and clinical practice
- Real-world impact orientation, with experience in both research and hospital settings
I am particularly interested in opportunities in medical physics, biomedical imaging, radiotherapy, and translational research, as well as roles where innovation meets clinical application.
Publications :
- 2026 : Rapport de la Convention Scientifique “De la fabrique de la connaissance à leur réception par la société civile”
- 2025 : Method for determining the resistance of a microorganism to an antimicrobial agent (Patent EP4579670A1/US20250210145A1)
- 2024 : Détection rapide de l’antibioresistance des bactéries par imagerie multispectrale infrarouge et marquage isotopique au deutérium (PhD dissertation)
- 2024 : Antibiotic susceptibility testing by infrared multispectral imaging : identification of optimal wavelengths
- 2020 : Correcting biological infrared spectroscopy data for atmospheric gases and Mie scattering (Master Thesis)