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Main Authors: Bolognesi, Stefano, Luzio, Andrea, Santoni, Giacomo
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2510.09866
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author Bolognesi, Stefano
Luzio, Andrea
Santoni, Giacomo
author_facet Bolognesi, Stefano
Luzio, Andrea
Santoni, Giacomo
contents In this paper, we study the baryons and solitons of chiral and vector-like $SU(N)$ gauge theories with matter in mixed one and two-index representations. Focusing on the Color-flavor locked (CFL) phase, we compute the topology of the coset of their low-energy EFT. We find that in the chiral models under consideration, Skyrmions are always absent. We also show, however, that some of these models admit heavy baryons that are expected to be stable, because their decay into the lighter degrees of freedom of the EFT is forbidden by the unbroken symmetry group. This mismatch suggests that some deeper dynamical mechanism must be responsible with either the instability of the seemingly stable heavy baryons or the unreliability of the Skyrme model in the low-energy EFT. In the vector-like models all the expected baryons are mirrored by Skyrmions. Then we turn to the study of domain walls. We determine some aspects of their dynamics by matching the $θ$-periodicity anomaly. We find that, for complete CFL, the $θ$-periodicity anomaly is always matched without introducing new dynamical degrees of freedom in the low-energy EFT. If part of the color group is unbroken, new dynamical degrees of freedom must be added to the low-energy EFT in the domain-wall background with few exceptions.
format Preprint
id arxiv_https___arxiv_org_abs_2510_09866
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Baryons, Skyrmions and $θ$-periodicity anomaly in chiral and vector-like gauge theories
Bolognesi, Stefano
Luzio, Andrea
Santoni, Giacomo
High Energy Physics - Theory
In this paper, we study the baryons and solitons of chiral and vector-like $SU(N)$ gauge theories with matter in mixed one and two-index representations. Focusing on the Color-flavor locked (CFL) phase, we compute the topology of the coset of their low-energy EFT. We find that in the chiral models under consideration, Skyrmions are always absent. We also show, however, that some of these models admit heavy baryons that are expected to be stable, because their decay into the lighter degrees of freedom of the EFT is forbidden by the unbroken symmetry group. This mismatch suggests that some deeper dynamical mechanism must be responsible with either the instability of the seemingly stable heavy baryons or the unreliability of the Skyrme model in the low-energy EFT. In the vector-like models all the expected baryons are mirrored by Skyrmions. Then we turn to the study of domain walls. We determine some aspects of their dynamics by matching the $θ$-periodicity anomaly. We find that, for complete CFL, the $θ$-periodicity anomaly is always matched without introducing new dynamical degrees of freedom in the low-energy EFT. If part of the color group is unbroken, new dynamical degrees of freedom must be added to the low-energy EFT in the domain-wall background with few exceptions.
title Baryons, Skyrmions and $θ$-periodicity anomaly in chiral and vector-like gauge theories
topic High Energy Physics - Theory
url https://arxiv.org/abs/2510.09866