Chaos in the color glass condensate

Dmitri Kharzeev; Kirill Tuchin

doi:10.1016/j.physletb.2005.06.091

Chaos in the color glass condensate

Dmitri Kharzeev
, Kirill Tuchin

Physics and Astronomy

Stony Brook University

Brookhaven National Laboratory

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

The number of gluons in the hadron wave function is discrete, and their formation in the chain of small x evolution occurs over discrete rapidity intervals of Δy≃1/α_s. We therefore consider the evolution as a discrete quantum process. We show that the discrete version of the mean-field Kovchegov evolution equation gives rise to strong fluctuations in the scattering amplitude, not present in the continuous equation. We find that if the linear evolution is as fast as predicted by the perturbative BFKL dynamics, the scattering amplitude at high energies exhibits a chaotic behavior. As a consequence, the properties of diffraction at high energies become universal.

Original language	English
Pages (from-to)	147-150
Number of pages	4
Journal	Physics Letters, Section B: Nuclear, Elementary Particle and High-Energy Physics
Volume	626
Issue number	1-4
DOIs	https://doi.org/10.1016/j.physletb.2005.06.091
State	Published - Oct 20 2005

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10.1016/j.physletb.2005.06.091

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abstract = "The number of gluons in the hadron wave function is discrete, and their formation in the chain of small x evolution occurs over discrete rapidity intervals of Δy≃1/αs. We therefore consider the evolution as a discrete quantum process. We show that the discrete version of the mean-field Kovchegov evolution equation gives rise to strong fluctuations in the scattering amplitude, not present in the continuous equation. We find that if the linear evolution is as fast as predicted by the perturbative BFKL dynamics, the scattering amplitude at high energies exhibits a chaotic behavior. As a consequence, the properties of diffraction at high energies become universal.",

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AB - The number of gluons in the hadron wave function is discrete, and their formation in the chain of small x evolution occurs over discrete rapidity intervals of Δy≃1/αs. We therefore consider the evolution as a discrete quantum process. We show that the discrete version of the mean-field Kovchegov evolution equation gives rise to strong fluctuations in the scattering amplitude, not present in the continuous equation. We find that if the linear evolution is as fast as predicted by the perturbative BFKL dynamics, the scattering amplitude at high energies exhibits a chaotic behavior. As a consequence, the properties of diffraction at high energies become universal.

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Chaos in the color glass condensate

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