Two-Photon Interactions with Nuclear Breakup in Relativistic Heavy Ion Collisions

Abstract

Highly charged relativistic heavy ions have high cross-sections for two-photon interactions. The photon flux is high enough that two-photon interactions may be accompanied by additional photonuclear interactions. Except for the shared impact parameter, these interactions are independent. Additional interactions like mutual Coulomb excitation are of experimental interest, since the neutrons from the nuclear dissociation provide a simple, relatively unbiased trigger. We calculate the cross sections, rapidity, mass and transverse momentum (pT) distributions for exclusive γγ production of mesons and lepton pairs, and for γγ reactions accompanied by mutual Coulomb dissociation. The cross-sections for γγ interactions accompanied by multiple neutron emission (XnXn) and single neutron emission (1n1n) are about 1/10 and 1/100 of that for the unaccompanied γγ interactions. We discuss the accuracy with which these cross-sections may be calculated. The typical pT of γγ final states is several times smaller than for comparable coherent photonuclear interactions, so pT may be an effective tool for separating the two classes of interactions.