Charge separation measurements in p(d)+Au and Au+Au collisions; implications for the chiral magnetic effect

Abstract

Charge separation ( S) measurements, obtained relative to the 2nd-order (2) and 3rd-order (3) event planes with a new charge-sensitive correlator R_m( S), are presented for p(d)+Au and Au+Au collisions at sNN=200~GeV. The correlator, which is sensitive to the hypothesized Chiral Magnetic Effect (CME), show the expected patterns of background-driven charge separation for the measurements relative to 3 and those relative to 2 for the p(d)+Au systems. By contrast, the Au+Au measurements relative to 2, show event-shape-independent R_2( S) distributions consistent with a CME-driven charge separation, quantified by widths having an inverse relationship to the Fourier dipole coefficient a1, which evaluates the CME. The extracted values of these widths and their dependencies on centrality and event-shape give new constraints for possible CME-driven charge separation in relativistic heavy-ion collisions.