Hadron physics is a broad topic. It will be divided in three parts: essentials, structure, and spectroscopy, this unit covers the part corresponding to hadron spectroscopy.
Units: Lattice Essentials, Hadron Essentials, some Renormalization and Improvement, some Data Analysis for the exercises.
Lattice techniques for isovector matrix elements. Techniques for quark line disconnected contributions.
Electron and neutrino scattering (electromagnetic and axial form factors, proton radius, neutrino oscillations).
The continuum, infinite volume limit at the physical quark mass point. ChPT to understand the volume- and mass-dependence.
Excited state pollution with connection to ChPT.
Neutron EM dipole moment, other charges and form factors, connection to BSM searches.
DIS, structure functions, twist as conformal spin, collinear factorization and OPE, Mellin transform and DGLAP evolution.
Moments of PDFs as local matrix elements/generalized charges, hard coefficient functions.
The energy-momentum tensor and its renormalization. Higher moments and operator mixing.