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Viljami Leino (TUM)19/03/2024, 11:152. Non-perturbative regime: Strongly coupled DM and quarkonia systems, phase transitions of QCD and new physics particles in the early Universe
Heavy probes are an excellent tool to study the quark gluon plasma formed at the heavy ion collision experiments. The lattice results of the transport coefficients provide an important input to phenomenological models explaining these experiments. Especially interesting transport property studied a lot in the recent years, is the diffusion of heavy quarks and quarkonium. Such diffusion...
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Bruno Scheihing Hitschfeld (Massachusetts Institute of Technology)19/03/2024, 11:402. Non-perturbative regime: Strongly coupled DM and quarkonia systems, phase transitions of QCD and new physics particles in the early Universe
Suppression of open heavy flavors and quarkonia in heavy-ion collisions is among the most informative probes of the quark-gluon plasma (QGP). Interpreting the full wealth of data obtained from the collision events requires a precise understanding of the evolution of heavy quarks and quarkonia as they propagate through the nearly thermal and strongly coupled plasma. Only in the past few years,...
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Alejandro Ibarra (TUM)19/03/2024, 12:05
The existence of dark matter in our Universe and the existence of an asymmetry between nucleons and antinucleons are two of the most solid evidences for physics beyond the Standard Model. Many mechanisms have been proposed to explain these two phenomena. On the other hand, these mechanisms typically involve different particles and different energy scales, therefore the observed similarity...
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