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Charge splitting of directed flow and charge-dependent effects in pion spectra in heavy ion collisions

The large and rapidly varying electric and magnetic fields induced by the spectator systems moving at ultrarelativistic velocities induce a charge splitting of directed flow, $v_1$, of positive and negative pions in the final state of the heavy ion collision. The same effect results in a very sizeable distortion of charged pion spectra as well as ratios of charged pions ($π^+/π^-$) emitted at high values of rapidity. Both phenomena are sensitive to the actual distance between the pion emission site and the spectator system. This distance $d_E$ appears to decrease with increasing rapidity of the pion, and comes below $\sim$1~fm for pions emitted close to beam rapidity. In this paper we discuss how these findings can shed new light on the space-time evolution of pion production as a function of rapidity, and on the longitudinal evolution of the system created in heavy ion collisions.

preprint2015arXivOpen access
A. RybickiA. SzczurekM. Klusek-GawendaM. Kielbowicz
hep-exhep-phnucl-th
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A. RybickiA. SzczurekM. Klusek-GawendaM. Kielbowicz

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