Probing the structure of f0(980) from the elliptic flow in p-Pb collisions at the LHC
Abstract
The f0(980) is a light scalar meson whose internal structure remains under debate and investigation. Assuming that the f0(980) is a K K molecule that can only survive at the kinetic freeze-out of the evolving bulk matter, we implement the coalescence model to study its transverse momentum (pT) spectra and elliptic flow (v2) in high-multiplicity p-Pb collisions at sNN=5.02 TeV. Using the well-tuned kaon phase-space distributions from the Hydro-Coal-Frag model, our KK coalescence calculations with reasonable values for the f0(980) radius successfully reproduce the elliptic flow measured by CMS over the range 0 < pT < 12 GeV and also agree with the pT-spectra from ALICE. These results in heavy ion collisions are consistent with the K K molecular picture of the f0(980). We also find that the number-of-constituent scaling of v2 for the f0(980) is violated in p-Pb collisions at the LHC because most f0(980) are produced from the coalescence of kaons that have different momenta. Our study demonstrates the necessity of realistic coalescence model calculations and also explains why the CMS interpretation of the f0(980) as an ordinary q q meson is no longer valid by interpreting the measured v2 with a simple scaling formula based on the assumption of equal momentum coalescence. The investigation also provides a novel way to explore the internal structure of light exotic hadrons that can be abundantly produced in relativistic heavy and/or light ion collisions.
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