Despite the exceptional success of the Standard Model (SM) of elementary particles and cosmology in describing the fundamental interactions in nature and the evolution of the Universe, a growing body of evidence over the past few decades suggests the existence of new physics beyond the SM. This evidence pertains to fundamental questions regarding the origin of electroweak scale, the generation of neutrino masses and matter-antimatter asymmetry, the nature of dark matter, the dynamics of inflation, etc. Several future collider projects, such as Higgs factory, 100 TeV hadron collider and Muon collider have been planned by the international high-energy physics community to explore the answer to these questions. At the same time, recent advancements in quantum information science, multi-messenger astronomy, and novel methods in quantum field theory (QFT) have unveiled exciting new opportunities for particle physics. Interdisciplinary interactions that integrate insights and tools from diverse fields are increasingly recognized as essential for uncovering deeper clues about the fundamental nature of the Universe.
This year’s workshop aims to bring together experts from a wide range of research fields, including
1. Methods of QFT and precision physics
2. Collider physics and beyond SM new physics
3. Particle cosmology
Our goal is to facilitate the exchange of recent advancements, foster collaborative discussions, and explore new opportunities for particle physics.
Time: July 18-20, 2025
Venue: Room 124, Multi-discipline Research Center, Institute of High Energy Physics, Chinese Academy of Sciences, No. 19B Yuquan Road, Shijingshan District, Beijing, China
Registration Fee:
- 1000 CNY / person for faculty and postdoc. Pay via the payment code.
- 500 CNY / person for student. Pay via the payment code.
Invited Speakers:
Yi-Fu Cai (USTC) Konstantin G. Chetyrkin (TTP, KIT)
Cheng-Wei Chiang (National Taiwan University) Bo Feng (CSRC)
Tao Han (University of Pittsburgh) Johannes M. Henn(Munich Max Planck Institute)
Junwu Huang (Perimeter Institute) Felix Kling (DESY)
David Kosower (IPhT, Saclay) Martin Kunz (University of Geneva)
Hong Li (IHEP, CAS) Ying-Ying Li (IHEP, CAS)
Meng-Xiang Lin (University of Pennsylvania) Xiao-Hui Liu (Being Normal University)
Xiao-Dong Ma (South China Normal University) Yan-Qing Ma (Peking University)
Ian Moult (Yale University) Kourosh Nozari (University of Mazandran)
Serguey T. Petcov (SISSA) Man-Qi Ruan (IHEP, CAS)
Mikhail E. Shaposhnikov (EPFL) Hua-Sheng Shao (LPTHE, Paris)
Seodong Shin (Jeonbuk National University) Gary Shiu (University of Wisconsin, Madison)
Minho Son (KAIST) Fei Teng (Fudan University)
Shinji Tsujikawa (Waseda University) Lian-Tao Wang (University of Chicago)
Zhong-Zhi Xianyu (Tsinghua University) Gang Yang (ITP, CAS)
Felix Yu (Johannes Gutenberg University of Mainz) Yang Zhang (USTC)
Gong-Bo Zhao (NAOC) Kevin Zhou (UC Berkeley)
Organizing Committee:
Hong Li (IHEP, CAS) Tao Liu (IHEP, CAS)
Ze-Long Liu (IHEP, CAS) Zhen Liu (University of Minnesota)
Yan-Qing Ma (Peking University) Jing Ren (IHEP, CAS)
Hua-Sheng Shao (LPTHE, Paris) Bin Yan (IHEP, CAS)
Qiang Zhao (IHEP, CAS) Shun Zhou (IHEP, CAS)
Supported by:
Institute of High Energy Physics, CAS (IHEP)
Center for Future High Energy Physics (CFHEP)
China Center for Advanced Science and Technology (CCAST)
Center for High Energy Physics-Peking University (CHEP-PKU)
