What question did this study set out to answer?

The aim is to calculate Bc meson yields produced in Pb-Pb collisions and compare them with yields from pp collisions.

April 24, 2026

Statistical production of

Key Points

The aim is to calculate Bc meson yields produced in Pb-Pb collisions and compare them with yields from pp collisions.
Utilized the statistical hadronization model to estimate Bc meson yields.
Computed transverse momentum spectrum using resonance recombination of quarks.
Analyzed integrated and differential nuclear modification factors against CMS experiment data.
Calculated Bc meson yields show significant enhancement in Pb-Pb collisions compared to pp collisions.
Transverse momentum spectrum aligns well with experimental data, indicating successful modeling.
Both integrated and differential nuclear modification factors exhibit agreement within theoretical uncertainties.

Abstract

The yield of Bc mesons produced in Pb-Pb collisions at √s = 5.02 TeV can be greatly enhanced compared to that produced in pp collisions at the same energy due to the recombination of bottom (b) and charm (c) quarks in the environment of the quark-gluon plasma (QGP). Taking advantage of the high degree of thermalization of the abundant c quarks in the QGP, we calculate the integrated yields of Bc mesons using the statistical hadronization model by treating the Bc meson as a member of the open b-hadron family. The transverse momentum (pT) spectrum is then computed by resonance recombination using transported c and b quark phase space distributions, supplemented by the component fragmented from b quarks. Both integrated and differential nuclear modification factors obtained show good agreement with pertinent data measured by the CMS experiment within theoretical uncertainties.

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Statistical production of

Key Points

Abstract

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