Positivity bounds and null constraints at loop level

23.01.2025 11:30 – 12:30

Implications of general properties of quantum field theory, such as causality, unitarity, and locality include constraints on the couplings of the effective field theory (EFT) coefficients. These constraints follow from the connections between the infrared (IR) and ultraviolet (UV) theory imposed by dispersion relations for four-particle amplitudes which formally allow us to express EFT couplings through the moments of positive-definite functions (imaginary parts of partial wave amplitudes). Previous studies of these positivity bounds were mainly focused on the weakly coupled EFTs, limiting the analysis to tree-level amplitudes of the IR theory. In this work, we extend the scope of positivity bounds including one-loop amplitudes, which is essential especially for the loops of massless particles. Examining a single scalar theory we confirm that the presence of massless loops cannot be reduced only to the running of EFT couplings because loops also modify the crossing symmetry relations (null constraints). Our results demonstrate that while for small coupling constants, the one-loop bounds are in good agreement with the tree-level results, the allowed EFT parameter ranges can be significantly modified if a weak coupling assumption is not additionally imposed. In particular, we found that an upper bound on dimension-8 coupling becomes significantly stronger, and the dimension-12 coupling can be slightly negative which was thought to be forbidden by tree-level positivity bounds.

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Bâtiment: Ecole de Physique

Room 234

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