My primary research focus lies in high-energy nuclear physics, where I delve into heavy-ion collision experiments, medical image reconstruction, nuclear medical imaging, image synthesis, X-ray diffraction, and radiation therapy. Throughout my career, I have achieved significant milestones in these areas and have also made notable contributions to related clinical research.
My current research interests include the application of positronium in PET imaging and the use of PET imaging for online monitoring in proton therapy. I am passionate about exploring these innovative approaches to enhance the accuracy and efficacy of diagnostic and therapeutic procedures.
In addition to my research work, I actively engage in academic collaborations and have published numerous high-impact papers in international conferences and journals. I am dedicated to advancing the fields of nuclear physics and medical imaging and strive to improve diagnostic and therapeutic outcomes through cutting-edge imaging technologies.