DSpace Coleção:https://repositorio.ufba.br/handle/ri/105852026-04-17T03:16:43Z2026-04-17T03:16:43ZD-meson diffusion in hadronic matterTorres-Rincon, Juan M.Abreu, Luciano Melohttps://repositorio.ufba.br/handle/ri/165462022-11-03T18:01:08Z2013-01-01T00:00:00ZTítulo: D-meson diffusion in hadronic matter
Autor(es): Torres-Rincon, Juan M.; Abreu, Luciano Melo
Abstract: We present effective-field-theory results with unitarized interactions on the D-meson transport coefficients in a gas populated by light mesons and baryons at finite temperature and baryochemical potential. The Fokker-Planck equation is used to compute the drag force, the relaxation time and the diffusion coefficients of D mesons for collisions at FAIR. At finite baryochemical potential, the combined effect of net baryonic density and sizable meson-baryon interaction makes the D mesons to relax more efficiently than in the case at zero baryochemical potential. We also describe the connection with the quark-gluon plasma phase in adiabatic trajectories on the phase diagram at both zero and finite baryochemical potential.
Tipo: Artigo de Periódico2013-01-01T00:00:00ZStrange and heavy mesons in hadronic matterCabrera, DanielAbreu, Luciano Melohttps://repositorio.ufba.br/handle/ri/162942022-09-13T16:01:38Z2013-01-01T00:00:00ZTítulo: Strange and heavy mesons in hadronic matter
Autor(es): Cabrera, Daniel; Abreu, Luciano Melo
Abstract: We present selected results on the properties of strange and heavy-flavoured mesons in a hot and dense nuclear medium, with emphasis in selfconsistent coupled-channel approaches based on the chiral Lagrangian. In the strangeness sector, we discuss how the enhanced reactivity of light strange vectors at FAIR conditions can be tied to in-medium effects on their predominant decay modes (e.g. K¯∗→K¯π) and to the excitation of strange baryons in vector-meson nucleon interactions. In the heavy-flavour sector, we focus on recent determinations of the transport coefficients of charmed and bottomed mesons in a hadron gas at vanishing baryonic chemical potential. We comment on the role of microscopic transport simulations to establish a connection between theoretical models and experimental observables from heavy-ion collisions.
Tipo: Artigo de Periódico2013-01-01T00:00:00Z