Distributional celestial amplitudes

Abstract

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Abstract Scattering amplitudes are tempered distributions, which are defined through their action on functions in the Schwartz space S ℝ $$ \mathcal{S}\left(\mathbb{R}\right) $$ by duality. For massless particles, their conformal properties become manifest when considering their Mellin transform. Therefore we need to mathematically well-define the Mellin transform of distributions in the dual space S ′ ℝ + $$ {\mathcal{S}}^{\prime}\left({\mathbb{R}}^{+}\right) $$ . In this paper, we investigate this problem by characterizing the Mellin transform of the Schwartz space S ℝ + $$ \mathcal{S}\left({\mathbb{R}}^{+}\right) $$ . This allows us to rigorously define the Mellin transform of tempered distributions through a Parseval-type relation. Massless celestial amplitudes are then properly defined by taking the Mellin transform of elements in the topological dual of the Schwartz space S ℝ + $$ \mathcal{S}\left({\mathbb{R}}^{+}\right) $$ . We conclude the paper with applications to tree-level graviton celestial amplitudes.

Keywords

• Scattering Amplitudes
• Gauge-Gravity Correspondence