Dive into the world of high-energy physics with this comprehensive lecture on High-Luminosity Large Hadron Collider (HL-LHC) theory. Explore the potential for discovering Beyond Standard Model (BSM) physics, understand the importance of probing intensity, and delve into Lagrangian models. Examine the differences between UV and IR approaches, investigate the H Sector, and learn about large and small background effects. Gain insights into supersymmetry, unexpected phenomena, and the significance of various models. Analyze the role of muons in particle physics and grasp the fundamentals of Effective Field Theory. This in-depth talk by Matthew McCullough from CERN offers a thorough exploration of cutting-edge concepts in particle physics research.
Overview
Syllabus
Introduction
Why might we see BSM
Probe the intensity
Lagrangian model
UV vs IR
H Sector
Why
Large Background
Small Background
Supersymmetry
The Unexpected
Models Matter
Muons
Effective Field Theory
Taught by
Galileo Galilei Institute
Related Courses
-
HL-LHC Experiments - Lecture 2
-
Looking into the Future of High-Energy Particle Physics by Gian Giudice
-
HL-LHC Experiments - Lecture 1
-
Naturalness in Quantum Field Theory after the LHC - Lecture 2
-
High Energy Physics at the LHC - Jon Butterworth
-
Naturalness in Quantum Field Theory after the LHC - Lecture 3
