Decipher the R_m correlator in search for the chiral magnetic effect in relativistic heavy ion collisions

Abstract

Background: The chiral magnetic effect (CME) is extensively studied in heavy-ion collisions at RHIC and the LHC. An azimuthal correlator called R_m was proposed to measure the CME. By observing the same R_2 and R_3 (convex) distributions from A Multi-Phase Transport (AMPT) model, by contrasting data and model as well as large and small systems and by event shape engineering (ESE), a recent preprint (arXiv:2006.04251v1) from STAR suggests that the R_m observable is sensitive to the CME signal and relatively insensitive to backgrounds, and their Au+Au data are inconsistent with known background contributions. Purpose: We examine those claims by studying the robustness of the R_m observable using AMPT as well as toy model simulations. We compare R_m to the more widely used γ azimuthal correlator to identify their commonalities and differences. Methods: We use AMPT to simulate Au+Au, p+Au, and d+Au collisions at sNN = 200 GeV, and study the responses of R_m to anisotropic flow backgrounds in the model. We also use a toy model to simulate resonance flow background and input CME signal to investigate their effects in R_2. Additionally we use the toy model to perform an ESE analysis to compare to STAR data as well as predict the degree of sensitivity of R_2 to isobar collisions with the event statistics taken at RHIC. ...