Optomechanical and Spin-Based Sensing for Fifth Forces, Dark Matter, and Other Beyond the Standard Model Physics
Offered By: Kavli Institute for Theoretical Physics via YouTube
Course Description
Overview
Explore cutting-edge quantum metrology applications in fundamental physics through this conference talk by Andy Geraci from Northwestern University. Delve into optomechanical and spin-based sensing techniques for detecting fifth forces, dark matter, and other phenomena beyond the Standard Model. Gain insights into the intersection of quantum sensors and fundamental physics studies, including dark matter searches and gravitational wave detection. Discover unexpected connections between quantum metrology methods and diverse fields such as optics, condensed matter, atomic physics, quantum information, particle physics, and gravitational physics. Learn about the latest advancements in precision quantum metrology and their potential to prompt new scientific discoveries through cross-disciplinary collaboration.
Syllabus
Optomechanical and spin-based sensing for Fifth forces, Dark Matter... ▸ Andy Geraci (Northwestern)
Taught by
Kavli Institute for Theoretical Physics
Related Courses
Computational PhotographyGeorgia Institute of Technology via Coursera Basic Physics
Swinburne University of Technology via Open2Study 基礎光學 I (Introduction to Optics I)
National Taiwan University via Coursera Imagining Other Earths
Princeton University via Coursera Optique non-linéaire
École Polytechnique via France Université Numerique