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1. Hadronization of heavy quarks

   https://doi.org/10.1103/PhysRevC.109.054912  

   Zhao, Jiaxing; Aichelin, Jörg; Gossiaux, Pol Bernard; Beraudo, Andrea; Cao, Shanshan; Fan, Wenkai; He, Min; Minissale, Vincenzo; Song, Taesoo; Vitev, Ivan; et al (May 2024, Physical Review C)

   Heavy-flavor hadrons produced in ultrarelativistic heavy-ion collisions are a sensitive probe for studying hadronization mechanisms of the quark-gluon-plasma. In this paper, we survey how different transport models for the simulation of heavy-quark diffusion through a quark-gluon plasma in heavy-ion collisions implement hadronization and how this affects final state observables. Utilizing the same input charm-quark distribution in all models at the hadronization transition, we find that the transverse-momentum dependence of the nuclear modification factor of various charm hadron species has significant sensitivity to the hadronization scheme. In addition, the charm-hadron elliptic flow exhibits a nontrivial dependence on the elliptic flow of the hadronizing partonic medium. 

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2. Bottom Hadrochemistry in High-Energy Hadronic Collisions

   https://doi.org/10.1103/PhysRevLett.131.012301  

   He, Min; Rapp, Ralf (July 2023, Physical Review Letters)

   The hadrochemistry of bottom quarks (b) produced in hadronic collisions encodes valuable information on the mechanism of color neutralization in these reactions. Since the b-quark mass is much larger than the typical hadronic scale of 1 GeV, bbar pair production is expected to be well separated from subsequent hadronization processes. A significantly larger fraction of b baryons has been observed in proton-proton (pp) and proton-antiproton (pbarp) reactions relative to eþe2 collisions, challenging theoretical descriptions. We address this problem by employing a statistical hadronization approach with an augmented set of b-hadron states beyond currently measured ones, guided by the relativistic quark model and lattice-QCD computations. Assuming relative chemical equilibrium between different b-hadron yields, thermal densities are used as fragmentation weights of b quarks into various hadron species. With quark model estimates of the decay patterns of excited states, the fragmentation fractions of weakly decaying b hadrons are computed and found to agree with measurements in pbarp collisions at the Tevatron. By combining transverse-momentum (pT) distributions of b quarks from perturbative QCD with thermal weights and independent fragmentation toward high pT, a fair description of the pT-dependent B-meson ratios measured in pp collisions at the LHC is obtained. The observed enhancement of Lambda_b attributed to the feeddown from thus far unobserved excited b baryons. Finally, we implement the hadrochemistry into a strongly coupled transport approach for b quarks in heavy-ion collisions, utilizing previously determined b-quark transport coefficients in the quark-gluon plasma, to highlight the modifications of hadrochemistry and collective behavior of b hadrons in Pb-Pb collisions at the LHC. 

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3. Hydrodynamic description of D meson production in high-energy heavy-ion collisions *

   https://doi.org/10.1088/1674-1137/abf645  

   Ding, Chi; Ke, Wei-Yao; Pang, Long-Gang; Wang, Xin-Nian (July 2021, Chinese Physics C)

   Abstract The large values and constituent-quark-number scaling of the elliptic flow of low- D mesons imply that charm quarks, initially produced through hard processes, might be partially thermalized through strong interactions with quark-gluon plasma (QGP) in high-energy heavy-ion collisions. To quantify the degree of thermalization of low- charm quarks, we compare the meson spectra and elliptic flow from a hydrodynamic model to experimental data as well as transport model simulations. We use an effective charm chemical potential at the freeze-out temperature to account for the initial charm quark production from hard processes and assume that they are thermalized in the local comoving frame of the medium before freeze-out. mesons are sampled statistically from the freeze-out hyper-surface of the expanding QGP as described by the event-by-event (3+1)D viscous hydrodynamic model CLVisc. Both the hydrodynamic and transport models can describe the elliptic flow of mesons at GeV/ c as measured in Au+Au collisions at GeV. Though the experimental data on spectra are consistent with the hydrodynamic result at small GeV/ c , they deviate from the hydrodynamic model at high transverse momentum, GeV/ c . The diffusion and parton energy loss mechanisms in the transport model can describe the measured spectra reasonably well within the theoretical uncertainty. Our comparative study indicates that charm quarks only approach local thermal equilibrium at small , even though they acquire sizable elliptic flow comparable to light-quark hadrons at both small and intermediate . 

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4. Recombination of $B_c$ mesons in ultrarelativistic heavy-ion collisions

   https://doi.org/10.1103/PhysRevC.109.014906  

   Wu, Biaogang; Tang, Zhanduo; He, Min; Rapp, Ralf (January 2024, Physical Review C)

   High-energy heavy-ion collisions have been suggested as a favorable environment for the production of Bc mesons, due to a much larger abundance of charm and bottom quarks compared to elementary reactions. Motivatedby recent CMS data for Bc production in Pb-Pb(5.02 TeV) collisions at the Large Hadron Collider (LHC),we deploy a previously developed transport approach for charmonia and bottomonia to evaluate the kinetics of Bc mesons throughout the fireball formed in these reactions. The main inputs to our approach are two transport parameters: the Bc’s reaction rate and equilibrium limit. Both quantities are determined by previous calculations via a combination of charm and bottom sectors. In-medium binding energies of Bc mesons are calculated from a thermodynamic T matrix with a lattice-QCD constrained potential, and figure in their inelastic reaction rates. Temperature-dependent equilibrium limits include charm- and bottom-quark fugacities based on their initial production. We compute the centrality dependence of inclusive Bc production and transverse-momentum (pT) spectra using two different recombination models: instantaneous coalescence and resonance recombination. The main uncertainty in the resulting nuclear modification factors, RAA, is currently associated with the Bc cross section in elementary pp collisions, caused by the uncertainty in the branching ratio for the Bc → J/ψμν decay. Our results indicate a large enhancement of the RAA at low pT , with significant regeneration contributions up to pT ~ 20 GeV. Comparisons to CMS data are carried out but firm conclusions will require a more accurate value of the branching ratio, or alternative channels to measure the Bc production in pp collisions. 

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5. Data-driven extraction of heavy quark diffusion in quark-gluon plasma

   https://doi.org/10.1140/epjc/s10052-020-8243-9  

   Li, Shuang; Liao, Jinfeng (July 2020, The European Physical Journal C)

   null (Ed.)

   Abstract Heavy quark production provides a unique probe of the quark-gluon plasma transport properties in heavy ion collisions. Experimental observables like the nuclear modification factor $$R_\mathrm{AA}$$ R AA and elliptic anisotropy $$v_\mathrm{2}$$ v 2 of heavy flavor mesons are sensitive to the heavy quark diffusion coefficient. There now exist an extensive set of such measurements, which allow a data-driven extraction of this coefficient. In this work, we make such an attempt within our recently developed heavy quark transport modeling framework (Langevin-transport with Gluon Radiation, LGR). A question of particular interest is the temperature dependence of the diffusion coefficient, for which we test a wide range of possibility and draw constraints by comparing relevant charm meson data with model results. We find that a relatively strong increase of diffusion coefficient from crossover temperature $$T_c$$ T c toward high temperature is preferred by data. We also make predictions for Bottom meson observables for further experimental tests. 

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