2001
DOI: 10.1016/s0375-9474(01)00562-0
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Open charm production in relativistic nucleus–nucleus collisions

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Cited by 90 publications
(156 citation statements)
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References 68 publications
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“…Such measurements also serve as an important baseline for charm production in proton-nucleus or deuteronnucleus (p + A or d + A), and nucleus-nucleus (A + B) collisions [22,23,24,25]. In the absence of any nuclear effects, charm production (since it is a point-like process) is expected to scale with the number of binary nucleonnucleon collisions (N coll ), which depends on the impact parameter of the nuclear collision and can be obtained from a Glauber calculation [26].…”
Section: Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…Such measurements also serve as an important baseline for charm production in proton-nucleus or deuteronnucleus (p + A or d + A), and nucleus-nucleus (A + B) collisions [22,23,24,25]. In the absence of any nuclear effects, charm production (since it is a point-like process) is expected to scale with the number of binary nucleonnucleon collisions (N coll ), which depends on the impact parameter of the nuclear collision and can be obtained from a Glauber calculation [26].…”
Section: Introductionmentioning
confidence: 99%
“…It will be interesting to see whether charm production follows a similar pattern. Finally, open charm production at forward rapidity needs to be understood to fully interpret PHENIX J/ψ measurements at forward rapidity [24,25,51,52,53].…”
Section: Introductionmentioning
confidence: 99%
“…The experimental challenge is illustrated in Figure 6 where the notation "rare probes" is quantified in terms of the product of multiplicity times branching ratio. The points are calculated for central Au+Au collisions at 25 A GeV using either the HSD transport code [16] or the thermal model based on the corresponding temperature and baryon-chemical potential [17]. Mesons containing charm quarks are about 9 orders of magnitude less abundant than pions (except for the ψ' meson which is even more suppressed).…”
Section: Exploring the Phase Diagram Of Nuclear Mattermentioning
confidence: 99%
“…The dilepton decay of vector mesons is suppressed by the square of the electromagnetic coupling constant (1/137) 2 , resulting in a dilepton yield which is 6 orders of magnitude below the pion yield, similar to the multiplicity of multi-strange anti-hyperons. The CBM experiment will enter a new era of nuclear matter research by measuring rare diagnostic probes never observed before at FAIR energies, and thus has a unique [16] and the statistical model [17]. For the vector mesons (ρ, ω, φ, J/ψ, ψ ) the decay into lepton pairs was assumed, for D mesons the hadronic decay into kaons and pions.…”
Section: Exploring the Phase Diagram Of Nuclear Mattermentioning
confidence: 99%
“…In fact, η meson production in heavy-ion collisions has been studied extensively both theoretically and experimentally, especially by the TAPS and HADES Collaborations, see, e.g., refs. [66][67][68][69][70][71][72][73][74][75]. Moreover, as pointed out earlier [66,67], because of the hidden strangeness (the ss component), η mesons experience weaker final state interactions compared to pions.…”
Section: Introductionmentioning
confidence: 99%