Isolating the chiral magnetic effect from backgrounds by pair invariant mass


Abstract in English

Topological gluon configurations in quantum chromodynamics induce quark chirality imbalance in local domains, which can result in the chiral magnetic effect (CME)--an electric charge separation along a strong magnetic field. Experimental searches for the CME in relativistic heavy ion collisions via the charge-dependent azimuthal correlator ($Deltagamma$) suffer from large backgrounds arising from particle correlations (e.g. due to resonance decays) coupled with the elliptic anisotropy. We propose differential measurements of the $Deltagamma$ as a function of the pair invariant mass ($m_{rm inv}$), by restricting to high $m_{rm inv}$ thus relatively background free, and by studying the $m_{rm inv}$ dependence to separate the possible CME signal from backgrounds. We demonstrate by model studies the feasibility and effectiveness of such measurements for the CME search.

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