Hadron production from quark coalescence and jet fragmentation

Abstract: Transverse momentum spectra of pions, protons, and antiprotons in Au + Au collisions at intermediate RHIC energy √ s NN = 62 GeV are studied in a model that includes both quark coalescence from the dense partonic matter and fragmentation of the quenched perturbative minijet partons. The resulting baryon to meson ratio at intermediate transverse momenta is predicted to be larger than that seen in experiments at higher center of mass energies. Recently, there has been renewed interest in using the quark coalesce… Show more

“…This may indicate a similar energy loss of quarks and gluons in the medium formed in high energy heavy ion collisions. GeV is consistent with quark coalescence models [5]. However a detailed comparison of the p/π + andp/π − ratios to predictions from model shows there is a lack of quantitative agreement.…”

“…They will also help in probing the difference in the energy loss of quarks and gluons in the medium [3,4]. The energy dependence of baryon to meson ratio at the intermediate p T region from 2 -6 GeV/c will address the specific prediction from the quark coalescence models of a higher baryon to meson ratio at √ s NN = 62.4 GeV compared to √ s NN = 200 GeV [5]. At high p T (> 6 GeV/c) the p/π ratio can provide information on quark and gluon jet conversions in the medium formed in heavy ion collisions [6].…”

Properties of particle production at large transverse momentum in Au+Au and Cu+Cu collisions at RHIC

“…This may indicate a similar energy loss of quarks and gluons in the medium formed in high energy heavy ion collisions. GeV is consistent with quark coalescence models [5]. However a detailed comparison of the p/π + andp/π − ratios to predictions from model shows there is a lack of quantitative agreement.…”

“…They will also help in probing the difference in the energy loss of quarks and gluons in the medium [3,4]. The energy dependence of baryon to meson ratio at the intermediate p T region from 2 -6 GeV/c will address the specific prediction from the quark coalescence models of a higher baryon to meson ratio at √ s NN = 62.4 GeV compared to √ s NN = 200 GeV [5]. At high p T (> 6 GeV/c) the p/π ratio can provide information on quark and gluon jet conversions in the medium formed in heavy ion collisions [6].…”

Properties of particle production at large transverse momentum in Au+Au and Cu+Cu collisions at RHIC

“…3 they can be explained solely by wave function effects, resonance contributions and contributions from higher Fock states in hadrons (51,108,115). If the scaling feature were accidental and strongly dependent on details of the phase space distribution, the very different dynamical evolution at LHC might lead to much stronger scaling violations there.…”

Coalescence Models for Hadron Formation from Quark-Gluon Plasma

“…Although we have shown in the present study that the anisotropic flows of φ mesons and baryons are not sensitive to the strange quark mass used in the dynamical coalescence model if the same strange quark distribution is used, using massive partons in the AMPT model not only is expected to affect the transversemomentum spectra of partons but also may influence their anisotropic flow and thus that of produced hadrons. Also, it is important to include in future studies the contribution from high-momentum jets [69] as they are expected to affect the production of φ mesons and baryons as well as their anisotropic flows at intermediate and high transverse momenta.…”

ϕ and Ω production in relativistic heavy-ion collisions in a dynamical quark coalescence model