Non-Relativistic Effective Field Theories - Lecture 3

Explore non-relativistic effective field theories in this advanced physics lecture delivered by Abhishek Mohapatra as part of the School for Advanced Topics in Particle Physics at the International Centre for Theoretical Sciences. Delve into the systematic framework for describing physics at specific energy scales using only relevant degrees of freedom, focusing on non-relativistic systems where particle velocities are much smaller than the speed of light. Learn how these theoretical tools provide essential methods for understanding low-energy phenomena in quantum field theory, from atomic and nuclear physics to condensed matter systems. Examine the construction principles, power counting schemes, and matching procedures that make non-relativistic EFTs powerful computational tools for calculating observables in systems where relativistic effects can be treated as corrections. Discover applications ranging from heavy quark physics and atomic systems to nuclear interactions, understanding how these frameworks bridge the gap between fundamental high-energy theories and observable low-energy phenomena. Master the technical aspects of renormalization, regularization, and systematic expansion methods that allow for controlled approximations in complex many-body systems.