Measurement of $e^+e^-$ Momentum and Angular Distributions from Linearly Polarized Photon Collisions

The Breit-Wheeler process which produces matter and antimatter from photon collisions is experimentally investigated through the observation of 6085 exclusive electron-positron pairs in ultraperipheral Au + Au collisions at

\sqrt{s_{NN}} = 200

GeV. The measurements reveal a large fourth-order angular modulation of cos 4 Δ ϕ = ( 16.8 ± 2.5 ) % and smooth invariant mass distribution absent of vector mesons ( ϕ , ω , and ρ ) at the experimental limit of ≤ 0.2 % of the observed yields. The differential cross section as a function of

e^+e^-

pair transverse momentum

P_{\perp}

peaks at low value with

\sqrt{\left \langle P^2_\perp \right \rangle} = 38.1 \pm 0.9

MeV and displays a significant centrality dependence. These features are consistent with QED calculations for the collision of linearly polarized photons quantized from the extremely strong electromagnetic fields generated by the highly charged Au nuclei at ultrarelativistic speed. The experimental results have implications for vacuum birefringence and for mapping the magnetic field which is important for emergent QCD phenomena.

Note:

Keywords: Ultra-peripheral collisions, Breit-Wheeler process, vacuum birefringence, two-photon process, QED under extreme conditions, strong fields

transverse momentum: low
heavy ion: scattering
electromagnetic field
Brookhaven RHIC Coll
impact parameter
Coulomb
flux
photon photon --> electron positron

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