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| Format: | Preprint |
| Published: |
2024
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| Subjects: | |
| Online Access: | https://arxiv.org/abs/2412.18632 |
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| _version_ | 1866929646710292480 |
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| author | Adhikari, Prabal Ammon, Martin Avancini, Sidney S. Ayala, Alejandro Bandyopadhyay, Aritra Blaschke, David Braghin, Fabio L. Buividovich, Pavel Cardoso, Rafael P. Cartwright, Casey Castaño-Yepes, Jorge David Chernodub, Maxim Coppola, M. Das, Mayusree Dutra, Mariana Endrődi, Gergely Fang, Jianjun Farias, Ricardo L. S. Fraga, Eduardo S. Frazon, Arthur Fukushima, Kenji García-Muñoz, Juan D. Garnacho-Velasco, Eduardo Dumm, D. Gomez Grieninger, Sebastian Gulminelli, Francesca Hernandez, Juan Islam, Chowdhury Aminul Kaminski, Matthias Kotov, Andrey Krein, Gastão Li, Jing Lo, Pok Man Loewe, Marcelo Lourenço, Odilon Markó, Gergely Marquez, Kau D. Mizher, Ana Mukhopadhyay, Banibrata Muñoz, Enrique Noguera, S. Nunes, Rodrigo M. Pais, Helena Palhares, Letícia F. Providência, Constança Raya, Alfredo Restrepo, Tulio Rojas, Juan Cristóbal Scoccola, N. N. Scurto, Luigi Sedrakian, Armen Smith, Dominik Tavares, William Rafael Tejeda-Yeomans, Maria E. Timóteo, Varese S. Tolos, Laura Villavicencio, Cristian Weber, Fridolin Yasui, Shigehiro Zamora, Renato Zuraiq, Zenia |
| author_facet | Adhikari, Prabal Ammon, Martin Avancini, Sidney S. Ayala, Alejandro Bandyopadhyay, Aritra Blaschke, David Braghin, Fabio L. Buividovich, Pavel Cardoso, Rafael P. Cartwright, Casey Castaño-Yepes, Jorge David Chernodub, Maxim Coppola, M. Das, Mayusree Dutra, Mariana Endrődi, Gergely Fang, Jianjun Farias, Ricardo L. S. Fraga, Eduardo S. Frazon, Arthur Fukushima, Kenji García-Muñoz, Juan D. Garnacho-Velasco, Eduardo Dumm, D. Gomez Grieninger, Sebastian Gulminelli, Francesca Hernandez, Juan Islam, Chowdhury Aminul Kaminski, Matthias Kotov, Andrey Krein, Gastão Li, Jing Lo, Pok Man Loewe, Marcelo Lourenço, Odilon Markó, Gergely Marquez, Kau D. Mizher, Ana Mukhopadhyay, Banibrata Muñoz, Enrique Noguera, S. Nunes, Rodrigo M. Pais, Helena Palhares, Letícia F. Providência, Constança Raya, Alfredo Restrepo, Tulio Rojas, Juan Cristóbal Scoccola, N. N. Scurto, Luigi Sedrakian, Armen Smith, Dominik Tavares, William Rafael Tejeda-Yeomans, Maria E. Timóteo, Varese S. Tolos, Laura Villavicencio, Cristian Weber, Fridolin Yasui, Shigehiro Zamora, Renato Zuraiq, Zenia |
| contents | Magnetic fields are ubiquitous across different physical systems of current interest; from the early Universe, compact astrophysical objects and heavy-ion collisions to condensed matter systems. A proper treatment of the effects produced by magnetic fields during the dynamical evolution of these systems, can help to understand observables that otherwise show a puzzling behavior. Furthermore, when these fields are comparable to or stronger than Λ_QCD, they serve as excellent probes to help elucidate the physics of strongly interacting matter under extreme conditions of temperature and density. In this work we provide a comprehensive review of recent developments on the description of QED and QCD systems where magnetic field driven effects are important. These include the modification of meson static properties such as masses and form factors, the chiral magnetic effect, the description of anomalous transport coefficients, superconductivity in extreme magnetic fields, the properties of neutron stars, the evolution of heavy-ion collisions, as well as effects on the QCD phase diagram. We describe recent theory and phenomenological developments using effective models as well as LQCD methods. The work represents a state-of-the-art review of the field, motivated by presentations and discussions during the "Workshop on Strongly Interacting Matter in Strong Electromagnetic Fields" that took place in the European Centre for Theoretical Studies in Nuclear Physics and Related Areas (ECT*) in the city of Trento, Italy, September 25-29, 2023. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2412_18632 |
| institution | arXiv |
| publishDate | 2024 |
| record_format | arxiv |
| spellingShingle | Strongly interacting matter in extreme magnetic fields Adhikari, Prabal Ammon, Martin Avancini, Sidney S. Ayala, Alejandro Bandyopadhyay, Aritra Blaschke, David Braghin, Fabio L. Buividovich, Pavel Cardoso, Rafael P. Cartwright, Casey Castaño-Yepes, Jorge David Chernodub, Maxim Coppola, M. Das, Mayusree Dutra, Mariana Endrődi, Gergely Fang, Jianjun Farias, Ricardo L. S. Fraga, Eduardo S. Frazon, Arthur Fukushima, Kenji García-Muñoz, Juan D. Garnacho-Velasco, Eduardo Dumm, D. Gomez Grieninger, Sebastian Gulminelli, Francesca Hernandez, Juan Islam, Chowdhury Aminul Kaminski, Matthias Kotov, Andrey Krein, Gastão Li, Jing Lo, Pok Man Loewe, Marcelo Lourenço, Odilon Markó, Gergely Marquez, Kau D. Mizher, Ana Mukhopadhyay, Banibrata Muñoz, Enrique Noguera, S. Nunes, Rodrigo M. Pais, Helena Palhares, Letícia F. Providência, Constança Raya, Alfredo Restrepo, Tulio Rojas, Juan Cristóbal Scoccola, N. N. Scurto, Luigi Sedrakian, Armen Smith, Dominik Tavares, William Rafael Tejeda-Yeomans, Maria E. Timóteo, Varese S. Tolos, Laura Villavicencio, Cristian Weber, Fridolin Yasui, Shigehiro Zamora, Renato Zuraiq, Zenia Nuclear Theory Magnetic fields are ubiquitous across different physical systems of current interest; from the early Universe, compact astrophysical objects and heavy-ion collisions to condensed matter systems. A proper treatment of the effects produced by magnetic fields during the dynamical evolution of these systems, can help to understand observables that otherwise show a puzzling behavior. Furthermore, when these fields are comparable to or stronger than Λ_QCD, they serve as excellent probes to help elucidate the physics of strongly interacting matter under extreme conditions of temperature and density. In this work we provide a comprehensive review of recent developments on the description of QED and QCD systems where magnetic field driven effects are important. These include the modification of meson static properties such as masses and form factors, the chiral magnetic effect, the description of anomalous transport coefficients, superconductivity in extreme magnetic fields, the properties of neutron stars, the evolution of heavy-ion collisions, as well as effects on the QCD phase diagram. We describe recent theory and phenomenological developments using effective models as well as LQCD methods. The work represents a state-of-the-art review of the field, motivated by presentations and discussions during the "Workshop on Strongly Interacting Matter in Strong Electromagnetic Fields" that took place in the European Centre for Theoretical Studies in Nuclear Physics and Related Areas (ECT*) in the city of Trento, Italy, September 25-29, 2023. |
| title | Strongly interacting matter in extreme magnetic fields |
| topic | Nuclear Theory |
| url | https://arxiv.org/abs/2412.18632 |