Research

Research lies at the core of my academic identity, complementing and enriching my teaching practice. Grounded in the fields of Medical Physics and Biomedical Technology, my research focuses on computational radiation dose calculation using Monte Carlo simulations for radiotherapy applications, as well as the establishment of Diagnostic Reference Levels (DRLs) for radiation protection in medical imaging. These projects address real-world challenges in patient safety, clinical optimization, and radiation risk assessment—bridging theoretical foundations with clinical application.

My research journey is driven by a commitment to interdisciplinary collaboration, innovation, and the translation of scientific findings into meaningful healthcare outcomes. Through supervising MSc and PhD projects, engaging in collaborative studies with clinicians and engineers, and contributing to national standards in radiation safety, I aim to create impact both within academia and the broader medical community.

This section highlights the evolution of my research, key projects and publications, supervisory roles, and my future vision—centered on advancing evidence-based practices in radiological science and promoting a culture of inquiry among students and colleagues alike.