3–7 juin 2024
Université de Strasbourg / Palais de la Musique et des Congrès
Fuseau horaire Europe/Paris

Measurements of $K^{*0,\pm}$ mesons in Au+Au (BES-II) and Ru(Zr)+Ru(Zr) collisions at RHIC

4 juin 2024, 19:53
1m
Hall Schweitzer, ground floor (PMC)

Hall Schweitzer, ground floor

PMC

Poster Resonances and Hyper-nuclei Posters

Orateurs

Subhash Singha (Institute of Modern Physics Chinese Academy of Sciences) Subhash Singha (Institute of Modern Physics, Lanzhou)

Description

The comparison between the production of short-lived resonances (e.g., $K^{*}$) to non-resonances (e.g., $K$) is commonly employed to understand the role of re-scattering and regeneration processes that occur during the late stages of hadronic interactions. Additionally, the neutral ($K^{*0}$ $(d\bar{s})$) and charged ($K^{*+}$ $(u\bar{s})$) vector mesons share similar mass and isospin, but the magnetic moments of their constituent quarks differ by approximately a factor of five. This distinction makes them a unique probe for studying medium effects and particle production.

In this talk, we will present the mass, width, transverse momentum ($p_{T}$) spectra, yield ($dN/dy$), and $\langle p_{T} \rangle$ of $K^{*0,\pm}$ mesons, utilizing data from the 2$^{nd}$ phase of the RHIC Beam Energy Scan (BES-II) program on Au+Au collisions at $\sqrt{s_{NN}}$ = 7.7 - 19.6 GeV, and isobar collisions (Ru+Ru and Zr+Zr) at $\sqrt{s_{NN}}$ = 200 GeV. The high-statistics sample of isobar collisions will enable precise and differential measurements of particles and anti-particles ($K^{*0}$, $\overline{K^{*0}}$, and $K^{*\pm}$), separately. The results of the $K^{*+}/K^{*0}$ ratio can be utilized to probe isospin effects. Moreover, comparing the $K^{*0}/K^{-}$ ratio between Au+Au and isobar collisions can provide insights into the energy and system size dependence of hadronic interactions.

Auteurs principaux

Subhash Singha (Institute of Modern Physics Chinese Academy of Sciences) Subhash Singha (Institute of Modern Physics, Lanzhou)

Co-auteur

Barbara Antonina Trzeciak (Czech Technical University in Prague)

Documents de présentation