Physics to Look Forward To: The Broad Application and Discovery Potential of Far-Forward Physics at the LHC

The Large Hadron Collider (LHC) has delivered a wealth of valuable measurements which have proven crucial in our understanding of the Universe. To further exploit the physics output of the LHC, a far-forward physics program has developed which has painted a more complete picture of the collisions at the most energetic particle collider. In this thesis, we demonstrate how the forward neutrino program can further our understanding of the Standard Model. In particular, forward measurements can yield an improved understanding of quantum chromodynamics (QCD), which paves the way for refined measurements at central experiments at the LHC, for cosmic-ray observatories, and neutrino telescopes. We also show that the forward region is where a number of beyond the Standard Model particles are best probed, including very weakly coupled GeV-scale dark matter. Finally, we consider the vast physics potential of far-forward physics at the 100 TeV Future Circular Collider, and the unique neutrino and new physics opportunities that it can yield.