Pole decomposition of BFKL eigenvalue

Claudelle Capasia Madjuogang Sandeu; Alex Prygarin

Pole decomposition of BFKL eigenvalue

Claudelle Capasia Madjuogang Sandeu, Alex Prygarin

Department of Physics

Research output: Contribution to journal › Conference article › peer-review

Abstract

We discuss the pole structure of the BFKL equation in the complex angular momentum plane. We argue that beyond the leading order, the proper framework for the BFKL dynamics is the Bethe-Salpeter equation. The Bethe-Salpeter equation was derived for describing evolution of the bound states and can provide a natural framework for the propagation of the bound state of two reggeized gluons. The Bethe-Salpeter approach to the BFKL dynamics sheds light on the internal structure of the BFKL eigenvalue beyond the leading order revealing the way the BFKL kernel with hermitian separability can result into the higher-order BFKL eigenvalue, where the hermitian separability is absent.

Original language	English
Article number	073
Journal	Proceedings of Science
Volume	469
State	Published - 16 Jan 2025
Event	31st International Workshop on Deep Inelastic Scattering, DIS 2024 - Grenoble, France Duration: 8 Apr 2024 → 12 Apr 2024

Cite this

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N2 - We discuss the pole structure of the BFKL equation in the complex angular momentum plane. We argue that beyond the leading order, the proper framework for the BFKL dynamics is the Bethe-Salpeter equation. The Bethe-Salpeter equation was derived for describing evolution of the bound states and can provide a natural framework for the propagation of the bound state of two reggeized gluons. The Bethe-Salpeter approach to the BFKL dynamics sheds light on the internal structure of the BFKL eigenvalue beyond the leading order revealing the way the BFKL kernel with hermitian separability can result into the higher-order BFKL eigenvalue, where the hermitian separability is absent.

AB - We discuss the pole structure of the BFKL equation in the complex angular momentum plane. We argue that beyond the leading order, the proper framework for the BFKL dynamics is the Bethe-Salpeter equation. The Bethe-Salpeter equation was derived for describing evolution of the bound states and can provide a natural framework for the propagation of the bound state of two reggeized gluons. The Bethe-Salpeter approach to the BFKL dynamics sheds light on the internal structure of the BFKL eigenvalue beyond the leading order revealing the way the BFKL kernel with hermitian separability can result into the higher-order BFKL eigenvalue, where the hermitian separability is absent.

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T2 - 31st International Workshop on Deep Inelastic Scattering, DIS 2024

Y2 - 8 April 2024 through 12 April 2024

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Pole decomposition of BFKL eigenvalue

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