Welcome to the High Energy Physics program at Chulalongkorn University. Our department is at the forefront of research in this exciting field, covering both high-energy theory and experimental particle physics.

High-energy theory & Particle phenomenology

In the realm of high-energy theory, we explore the fundamental principles of quantum field theory, which forms the very foundation of the Standard Model in particle physics. While the Standard Model provides a comprehensive understanding of known particles and their interactions, our researchers are dedicated to pushing its boundaries. Some of our experts investigate potential particles hinted at by data from CERN's Large Hadron Collider, while others delve into the non-perturbative aspects of quantum fields, seeking deeper insights into existing phenomena and frameworks for making new predictions. This diverse spectrum of investigations ranges from exploring quantum-gravity dualities to understanding collective phenomena in cosmology, all guided by a wide array of mathematical tools, including quantum many-body systems and string theory.

Website: Bangkok Fundamental Physics Group

Experimental particle physics

On the experimental side of particle physics, our team of physicists actively participates in various international collaborations. They are deeply involved in cutting-edge research, including searches for particles beyond the Standard Model, studies related to the Higgs boson, neutrino physics, and the quest for exotic particles and dark matter. What sets our experimental group apart is their pioneering use of machine learning techniques in data analysis. They employ these advanced methods for tasks such as physics object identification, data reconstruction, and background estimation, enhancing our ability to extract valuable insights from experimental data.

Experiments: CMS, JUNO, KATRIN, Belle II

At Chulalongkorn University, our High Energy Physics program is committed to advancing our understanding of the universe's most fundamental building blocks, both through theoretical exploration and innovative experimental research. We invite you to explore our work and join us on this exciting journey of discovery.