Bootstrapping high-energy observables

Bhat, Faizan; Chowdhury, Debapriyo; Sinha, Aninda; Tiwari, Shaswat; Zahed, Ahmadullah

doi:10.1007/jhep03(2024)157

J. High Energ. Phys.

2024

DOI: 10.1007/jhep03(2024)157

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Bootstrapping high-energy observables

Faizan Bhat,

Debapriyo Chowdhury,

Aninda Sinha

et al.

Abstract: In this paper, we set up the numerical S-matrix bootstrap by using the crossing symmetric dispersion relation (CSDR) to write down Roy equations for the partial waves. As a motivation behind examining the local version of the CSDR, we derive a new crossing symmetric, 3-channels-plus-contact-terms representation of the Virasoro-Shapiro amplitude in string theory that converges everywhere except at the poles. We then focus on gapped theories and give novel analytic and semi-analytic derivations of several bounds… Show more

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Cited by 2 publications

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Learning S -matrix phases with neural operators

Niarchos,

Papageorgakis

2024

Phys. Rev. D

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We use Fourier neural operators (FNOs) to study the relation between the modulus and phase of amplitudes in 2→2 elastic scattering at fixed energies. Unlike previous approaches, we do not employ the integral relation imposed by unitarity, but instead train FNOs to discover it from many samples of amplitudes with finite partial wave expansions. When trained only on true samples, the FNO correctly predicts (unique or ambiguous) phases of amplitudes with infinite partial wave expansions. When also trained on false samples, it can rate the quality of its prediction by producing a true/false classifying index. We observe that the value of this index is strongly correlated with the violation of the unitarity constraint for the predicted phase and present examples where it delineates the boundary between allowed and disallowed profiles of the modulus. Our application of FNOs is unconventional: it involves a simultaneous regression-classification task and emphasizes the role of statistics in ensembles of neural operators. We comment on the merits and limitations of the approach and its potential as a new methodology in theoretical physics. Published by the American Physical Society 2024

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Learning S -matrix phases with neural operators

Niarchos,

Papageorgakis

2024

Phys. Rev. D

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Field Theory Expansions of String Theory Amplitudes

Saha,

Sinha

2024

Phys. Rev. Lett.

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Motivated by quantum field theory (QFT) considerations, we present new representations of the Euler-Beta function and tree-level string theory amplitudes using a new two-channel, local, crossing symmetric dispersion relation. Unlike standard series representations, the new ones are analytic everywhere except at the poles, sum over poles in all channels, and include contact interactions, in the spirit of QFT. This enables us to consider mass-level truncation, which preserves all the features of the original amplitudes. By starting with such expansions for generalized Euler-Beta functions and demanding QFT-like features, we single out the open superstring amplitude. We demonstrate the difficulty in deforming away from the string amplitude and show that a class of such deformations can be potentially interesting when there is level truncation. Our considerations also lead to new QFT-inspired, parametric representations of the Zeta function and π, which show fast convergence. Published by the American Physical Society 2024

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Bootstrapping high-energy observables

Cited by 2 publications

References 96 publications

Learning S -matrix phases with neural operators

Learning S -matrix phases with neural operators

Field Theory Expansions of String Theory Amplitudes

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