Scattering amplitudes describe the observations of high-energy collider experiments, providing a window onto the fundamental structures predicted by relativistic quantum theories. Through the research of the ESRs<\/a> we aim to uncover the unifying principles underlying scattering, then apply them to a range of problems including those directly relevant to experiments such as those at the Large Hadron Collider (LHC). The research goals of SAGEX naturally separate into three distinct (but inter-related) groups:<\/p>\n Geometry:<\/strong> exploring the geometric, algebraic and algorithmic structures at the heart of scattering theory.<\/p>\n Loops:<\/strong> pushing predictions to the highest possible loop level and multiplicity.<\/p>\n Lab:<\/strong>\u00a0applying and extending techniques developed in ‘Geometry’ and ‘Loops’ to problems that are directly relevant to current and future experiments at the LHC.<\/p>\n <\/p>\n","protected":false},"excerpt":{"rendered":" Scientific goals Scattering amplitudes describe the observations of high-energy collider experiments, providing a window onto the fundamental structures predicted by relativistic quantum theories. Through the research of the ESRs we aim to uncover the unifying principles underlying scattering, then apply them to a range of problems including those directly relevant to experiments such as those … <\/p>\n