Professor Christoph Paus, a key figure in the discovery of the Higgs Boson at CERN's Large Hadron Collider, discusses his journey in high-energy physics, the challenges of leading large international collaborations, and the future of particle physics. As one of the co-conveners of the CMS Higgs physics group during the historic discovery, Paus provides unique insights into how the detection of this elusive particle was achieved through careful experimental design, data analysis, and team coordination.

He explains the Standard Model of particle physics, the significance of the Higgs field and boson, and explores current mysteries like dark matter and antimatter asymmetry. The conversation also covers future collider technologies, from circular and linear accelerators to speculative space-based systems, and the ongoing quest to probe higher energy frontiers.

02:24 Understanding the Standard Model
08:32 Challenges and Mysteries in Physics
11:46 The Higgs Field and Its Implications
18:57 Journey into Physics: From Engineering to Higgs
22:26 Early Days in High-Energy Physics
34:14 Leading Large-Scale Physics Collaborations
51:59 Balancing Project Goals and Individual Interests
53:07 Community Reviews and Prioritization
55:50 The Role of Machine Learning in Physics
56:53 Challenges in Discovering the Higgs Boson
01:06:07 Future Collider Technologies
01:34:51 Exploring Dark Matter and Dark Sectors
01:35:33 Current Anomalies in Physics
01:40:19 Concluding Thoughts and Future Prospects

FOLLOW US ON SOCIAL:
Twitter @ https://x.com/632nmPodcast
Substack: https://632nmpodcast.substack.com/
Michael Dubrovsky @ https://x.com/MikeDubrovsky
Misha Shalaginov @ https://x.com/MYShalaginov
Xinghui Yin @ https://x.com/XinghuiYin

SUBSCRIBE:
Apple Podcasts: https://podcasts.apple.com/us/podcast/632nm/id1751170269
Spotify: https://open.spotify.com/show/4aVH9vT5qp5UUUvQ6Uf6OR

WEBSITE:
https://www.632nm.com