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Main Authors: Braun, M. A., Kuzminskii, E. M., Vyazovsky, M. I.
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2601.18206
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author Braun, M. A.
Kuzminskii, E. M.
Vyazovsky, M. I.
author_facet Braun, M. A.
Kuzminskii, E. M.
Vyazovsky, M. I.
contents The Regge-Gribov model describing interacting pomerons and odderons is proposed with triple reggeon vertices taking into account the negative signature of the odderon. Its simplified version with zero transverse dimensions is first considered. No phase transition occurs in this case at the intercept crossing unity. This simplified model is studied without more approximations by numerical techniques. The physically relevant model in the two-dimensional transverse space is then studied by the renormalization group method in the single loop approximation. The pomeron and odderon are taken to have different bare intercepts and slopes. The behaviour when the intercepts move from below to their critical values compatible with the Froissart limitation is studied. Five real fixed points are found with singularities in the form of non-trivial branch points indicating a phase transition as the intercepts cross unity. The new phases, however, are not physical, since they violate the projectile-target symmetry. In the vicinity of fixed points the asymptotical behaviour of Green functions and elastic scattering amplitude is found under Glauber approximation for couplings to participants.
format Preprint
id arxiv_https___arxiv_org_abs_2601_18206
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle The Regge-Gribov model with odderons
Braun, M. A.
Kuzminskii, E. M.
Vyazovsky, M. I.
High Energy Physics - Theory
High Energy Physics - Phenomenology
The Regge-Gribov model describing interacting pomerons and odderons is proposed with triple reggeon vertices taking into account the negative signature of the odderon. Its simplified version with zero transverse dimensions is first considered. No phase transition occurs in this case at the intercept crossing unity. This simplified model is studied without more approximations by numerical techniques. The physically relevant model in the two-dimensional transverse space is then studied by the renormalization group method in the single loop approximation. The pomeron and odderon are taken to have different bare intercepts and slopes. The behaviour when the intercepts move from below to their critical values compatible with the Froissart limitation is studied. Five real fixed points are found with singularities in the form of non-trivial branch points indicating a phase transition as the intercepts cross unity. The new phases, however, are not physical, since they violate the projectile-target symmetry. In the vicinity of fixed points the asymptotical behaviour of Green functions and elastic scattering amplitude is found under Glauber approximation for couplings to participants.
title The Regge-Gribov model with odderons
topic High Energy Physics - Theory
High Energy Physics - Phenomenology
url https://arxiv.org/abs/2601.18206