Dr. James C. L. Chow | Quantum Computing | Best Researcher Award

Princess Margaret Cancer Centre, Canada.

Dr. James Chun Lam Chow, PhD, FCCPM, FInstP, FIET, SMIEEE, PPhys, CPhys, CSci, is a distinguished medical physicist specializing in radiation oncology and artificial intelligence applications in healthcare. He is currently an Associate Professor in Material Science and Engineering at the University of Toronto and a Clinician Investigator at the Princess Margaret Cancer Research Institute. With over two decades of experience in medical physics, his research focuses on AI-driven healthcare solutions, radiation therapy optimization, and Monte Carlo simulations for cancer treatment.

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Education🎓

Dr. James C. L. Chow earned his PhD in Physics from the University of Hong Kong in 1995 under the supervision of Prof. Peter Fung, following a BSc in Applied Physics (First Class Honours) from City University of Hong Kong in 1992. He was awarded a Croucher Postdoctoral Fellowship at the University of Cambridge (1995-1997), then continued his research as a Postdoctoral Researcher at the University of Toronto (1997-1998) and later as a Postdoctoral Fellow at McMaster University (1998-2000). Transitioning into medical physics, he completed his Medical Physics Residency at the London Regional Cancer Centre (2000-2002), gaining clinical expertise in radiation therapy and medical imaging.

Professional Experience🌟

Dr. James C. L. Chow is an accomplished medical physicist and academic with extensive experience in radiation oncology and materials science. He is currently an Associate Professor in the Department of Materials Science and Engineering at the University of Toronto (2025–Present) and has been an Associate Professor in the Department of Radiation Oncology at the University of Toronto since 2019. In addition to his academic roles, he serves as a Medical Physicist at Princess Margaret Cancer Centre (2005–Present), where he also leads as the Physics On-Call Lead (2010–Present). His research contributions are further reflected in his role as a Clinician Investigator at the Princess Margaret Cancer Research Institute (2023–Present) and his affiliation with the Acceleration Consortium at the University of Toronto (2024–Present).

Previously, Dr. Chow held multiple key positions, including Assistant Professor in Radiation Oncology at the University of Toronto (2006–2019) and Medical Physics Site Lead for Skin Cancer at Princess Margaret Cancer Centre (2010–2015). Before joining Princess Margaret, he worked as a Medical Physicist and Deputy Radiation Safety Officer at Grand River Regional Cancer Centre (2002–2005). He has also contributed to academia as an Adjunct Professor at Ryerson University and the University of Waterloo (2005–2010). His career reflects a deep commitment to advancing medical physics, cancer treatment, and interdisciplinary research in materials science and engineering.

Research Interests📚

Dr. Chow’s research focuses on:

Radiation Oncology & Medical Physics: Treatment optimization using Monte Carlo simulations

Artificial Intelligence in Healthcare: AI-driven diagnostic tools and chatbot applications in oncology

Nanotechnology in Radiation Therapy: Gold nanoparticle-enhanced radiotherapy

Clinical Data Analysis: Predictive modeling for cancer treatment outcomes

Awards & Recognitions🏆

2024 Outstanding Reviewer, Nuclear Engineering and Technology Journal

2024 Most-Viewed Article, JMIR Cancer

2024 Outstanding Author of the Year, AIMS Biophysics Journal

2019 Top Peer Reviewer, Web of Science Group

2012 Outstanding Reviewer, Medical Physics Journal

2010 SciNet Local Resource Allocation Award (1 million supercomputing hours for Monte Carlo simulations)

Selected Publications📖

Gold nanoparticles for drug delivery and cancer therapy
S Siddique, JCL Chow
Applied Sciences 10(11), 3824 (2020) – Cited: 382

Chatbot for health care and oncology applications using artificial intelligence and machine learning: Systematic review
L Xu, L Sanders, K Li, JCL Chow
JMIR Cancer 7(4), e27850 (2021) – Cited: 375

Application of nanomaterials in biomedical imaging and cancer therapy
S Siddique, JCL Chow
Nanomaterials 10(9), 1700 (2020) – Cited: 325

Irradiation of gold nanoparticles by X‐rays: Monte Carlo simulation of dose enhancements and the spatial properties of secondary electron production
MKK Leung, JCL Chow, BD Chithrani, MJG Lee, B Oms, DA Jaffray
Medical Physics 38(2), 624-631 (2011) – Cited: 311

Machine learning in healthcare communication
S Siddique, JCL Chow
Encyclopedia 1(1), 220-239 (2021) – Cited: 142

Mr. Zheting Meng | Physics and Astronomy | Best Researcher Award

Institute of Optics and Electron, China.

Mr. Meng Zheting is a graduate student at the Institute of Optoelectronics Technology, Chinese Academy of Sciences, specializing in light field regulation and vector light field control applications. With a strong background in physics and optoelectronics, he is dedicated to advancing laser wireless power transfer (LWPT) for UAVs. His research focuses on developing lightweight air-floating metalenses, significantly improving laser energy distribution and wireless charging efficiency.

🎓 Education

Meng Zheting holds a Bachelor of Science in Physics from Sichuan University, where he developed a strong foundation in optics and photonics. His undergraduate studies sparked a deep interest in light field manipulation, leading him to pursue further specialization. Currently, he is enrolled in a Master of Science in Optoelectronics at the Institute of Optoelectronics Technology, Chinese Academy of Sciences. His graduate research focuses on the principle and method of light field regulation, particularly in vector light field control applications. Through his academic journey, he has gained extensive expertise in laser wireless power transfer (LWPT) and its innovative applications, contributing to the advancement of unmanned aerial vehicle (UAV) endurance and efficient long-range wireless energy transfer.

💼 Experience

Meng Zheting is currently a Graduate Researcher (2023–Present) at the Research Center on Vector Optical Fields, Institute of Optoelectronics Technology, Chinese Academy of Sciences. His research is dedicated to advancing Laser Wireless Power Transfer (LWPT) technologies, aiming to enhance Unmanned Aerial Vehicle (UAV) endurance by overcoming critical challenges such as beam divergence, non-uniform irradiation, and alignment instability. His innovative work includes the development of a lightweight air-floating metalens that significantly improves laser focusing and energy distribution, achieving up to 75% uniformity in experiments. This breakthrough has the potential to revolutionize long-range wireless power transmission, expanding applications in aerospace, defense, and renewable energy sectors.

📚 Publication

Meng, Z., Xiao, Y., Chen, L., Wang, S., Fang, Y., Zhou, J., Li, Y., Zhang, D., Pu, M., & Luo, X. (2025). Floating Multi-Focus Metalens for High-Efficiency Airborne Laser Wireless Charging. Photonics, 12(2), Article 150. DOI: 10.3390/photonics12020150

This study presents a floating multi-focus metalens designed to enhance airborne laser wireless charging efficiency. By improving laser focusing precision and energy uniformity, the proposed technology addresses key limitations in long-range wireless power transfer (LWPT), significantly boosting UAV endurance and operational capabilities.