Abstract

We study the behavior of dynamically-generated baryon resonances with heavy- quark content within a unitarized coupled-channel theory in matter that fulfills heavy-quark spin symmetry constraints. We analyze the implications for the formation of charmed mesic nuclei and the propagation of heavy mesons in heavy-ion collisions from RHIC to FAIR.

Highlights

  • The study of the properties of hadrons under extreme conditions is one of the main research activities of several experimental programs and, in particular, of the forthcoming FAIR (Germany) project

  • We study the behavior of dynamically-generated baryon resonances with heavyquark content within a unitarized coupled-channel theory in matter that fulfills heavy-quark spin symmetry constraints

  • We analyze the implications for the formation of charmed mesic nuclei and the propagation of heavy mesons in heavy-ion collisions from RHIC to FAIR

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Summary

Introduction

The study of the properties of hadrons under extreme conditions is one of the main research activities of several experimental programs and, in particular, of the forthcoming FAIR (Germany) project. We study the behavior of dynamically-generated baryon resonances with heavyquark content within a unitarized coupled-channel theory in matter that fulfills heavy-quark spin symmetry constraints. We analyze the implications for the formation of charmed mesic nuclei and the propagation of heavy mesons in heavy-ion collisions from RHIC to FAIR.

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