This course aims to explore short-range correlations in nuclear physics, focusing on the broad topic of few-body physics near unitarity. The learning outcomes include understanding the challenges and successes in atomic and nuclear physics, highlighting the Efimov effect, and promoting cross-fertilization between theory and experiment in various research areas. The course teaches skills such as analyzing experimental data, applying methodologies, and addressing convergence issues in the context of short-range correlations. The teaching method involves lectures and discussions led by experts in the field. The intended audience includes scientists, researchers, and students interested in nuclear physics, atomic physics, condensed matter physics, and related disciplines.
Short Range Correlations in Nuclear Physics - Nir Barnea
Kavli Institute for Theoretical Physics via YouTube
Overview
Syllabus
Intro
Lambda particles
Bionic EFT
Normal nuclei
Wigner bound
Methodology
Application
Convergence
Experimental Data
Red Cross
Body scattering
Lambda
Problems
Charge symmetry breaking
Breaking effect
Taught by
Kavli Institute for Theoretical Physics