The development of advanced mathematical methods for perturbative Quantum Field Theory has, over the years, significantly advanced our ability to compute scattering amplitudes and physical observables at higher orders in perturbation theory. Scattering amplitudes now form an interdisciplinary field that brings together physicists, mathematicians, and computer scientists, reflecting its broad relevance and impact across multiple domains.
The “Loop-the-Loop” workshop seeks to bridge the fields of particle physics, gravitational wave physics and cosmology, together with cutting edge mathematical techniques and computational methods. By fostering collaboration across these areas, the workshop aims to drive new insights and innovations at the intersection of theoretical and applied research.
Day 1: Applied Mathematics for Feynman Calculus
- Integration-by-parts & Computational Techniques
- Intersection Theory
- Analytic Structure of Feynman Integrals
Day 2: Scattering Amplitudes in Gravity
- Post-Minkowskian Integrals
- Extreme Mass Ratio Systems
- Cosmological Correlators
Day 3: Scattering Amplitudes in Particle Physics
- Amplitudes & Elliptics
- Differential Equations
- Infrared Subtraction
