The curriculum promotes research in the field of diagnostic imaging and radiotherapy and is designed to prepare students to be prepared to work in a range of settings, including hospitals, research institutions, and private industry, and to make important contributions to the future of healthcare. The program offers an in-depth exploration of the latest research topics, including the applications of artificial intelligence, radiomics, and radiogenomics in diagnostic imaging, interventional radiology, theranostics, and radiotherapy. Students will gain a comprehensive understanding of the simulation and planning of treatments in interventional radiology, theranostics, and radiotherapy, as well as the development and validation of imaging biomarkers. They will also learn about the development and analysis of image biobanks, advanced imaging, and processing technologies, and big data analytics applied to diagnostic imaging. The program places a strong emphasis on hands-on learning, ensuring that students have access to the latest technologies and equipment, as well as opportunities to collaborate with leading researchers in the field. The curriculum is designed to foster critical thinking and problem-solving skills, and undertake innovative research projects to make a significant impact in the field of diagnostic imaging and radiotherapy.