Nuclear Forces, Effective Fields & Lattice Calculations

Explore the world of Effective Field Theories (EFT) and their application in non-relativistic quantum mechanics through this comprehensive content: N-body Quantum Mechanics and Quantum Field Theory, two-body Systems with Natural and Large Scattering. The lectures are accompanied by slides and 11 exercises with solutions, including discussions on the Efimov effect.

The presentations at the TALENT school review the background of chiral effective field theory and end with its implementation in the equation of the state of symmetric nuclear matter. They discuss the symmetries of QCD-chiral symmetry, multipole expansion, and others. 

These slides present the chiral perturbation theory in a nutshell. They expand on two-nucleon scattering like pionless/including pion EFT and nuclear forces/currents from chiral EFT. 

The presentation emphasizes the relevance of path integrals and their applications in quarks and gluons fields, hadronics systems, and simulating electrons strongly correlated. They include the Hubbard Model, the Ising model, and more. These notes come with exercises and examples code in QCD. 

These seven lectures introduce nuclear lattice effective field theory for non-relativistic fermions. Includes Chiral EFT with exercises and simulations. The series concludes with eigenvector continuation, unitary limits, and the intriguing phenomena of superfluidity.