Elliptic flow of φ-meson at intermediate pT: Influence of mass versus quark number

Abstract

We have studied elliptic flow (v2) of φ-mesons in the framework of a multi phase transport (AMPT) model at LHC energy. In the realms of AMPT model we observe φ-mesons at intermediate transverse momentum (pT) deviate from the previously observed (at RHIC) particle type grouping of v2 according to the number of quark content i.e, baryons and mesons. Recent results from the ALICE Collaboration have shown that φ-meson and proton v2 has a similar trend, possibly indicating that particle type grouping might be due to the mass of the particles and not the quark content. A stronger radial boost at LHC compared to RHIC seems to offer a consistent explanation to such observation. However, recalling that φ-mesons decouple from the hadronic medium before additional radial flow is build-up in the hadronic phase, similar pattern in φ-meson and proton v2 may not be due to radial flow alone. Our study reveals that models incorporating φ-meson production from KK fusion in the hadronic rescattering phase also predict a comparable magnitude of φ-meson and proton v2 particularly in the intermediate region of pT. Whereas, v2 of φ-mesons created in the partonic phase is in agreement with quark-coalescence motivated baryon-meson grouping of hadron v2. This observation seems to provide a plausible alternative interpretation for the apparent mass-like behaviour of φ-meson v2. We have also observed a violation of hydrodynamical mass ordering between proton and φ-meson v2 further supporting that φ-mesons are negligibly affected by the collective radial flow in the hadronic phase due to the small in-medium hadronic interaction cross sections.