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Explore advanced concepts in collinear fragmentation, including generating functionals, groomed correlators, and angularities at NNLL accuracy in particle physics.
Explore advanced techniques for calculating three-loop Feynman diagrams in Higgs plus jet production, enhancing understanding of particle physics interactions.
Explore the LHCf detector's role in forward physics at the LHC, uncovering its precision measurements and contributions to particle physics research.
Explore numerical integration techniques for loop amplitudes in momentum space, focusing on singularities, thresholds, and local cancellation methods.
Explore power corrections in collider physics, examining their impact on precision measurements and theoretical predictions for particle interactions at high energies.
Explore advanced concepts in particle physics, focusing on collider observables and their singular structure at N3LO and beyond.
Explore precision gravitational wave physics using collider tools, advancing our understanding of cosmic phenomena and their detection methods.
Explore advanced QED calculations for massive two-loop form factors, focusing on leptonic contributions with distinct mass scales in this technical physics presentation.
Explore high energy resummation techniques for jet processes at the LHC, focusing on theoretical advancements and practical applications in particle physics research.
Explore power corrections in high-accuracy event generators, enhancing precision in particle physics simulations and improving theoretical predictions for experimental results.
Explore advanced techniques for calculating multiloop scattering amplitudes in particle physics, including dimensional regularization, scissors techniques, and automated treatments.
Explore axion haloscope design principles and DMRadio experiments, focusing on magnet design and collaborations in dark matter detection research.
Explore axion astrophysics through stars, globular clusters, and supernovae. Learn about energy conservation, theoretical models, and future astrophysical probes to advance our understanding of axions.
Explore helioscope searches and the latest developments in BabyIAXO, advancing our understanding of axion-like particles and their role in solving fundamental physics mysteries.
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