European Physical Journal C: Particles and Fields (Nov 2023)

Inconsistencies in, and short pathlength correction to, $$R_{AA}(p_T)$$ R AA ( p T ) in  $$\textrm{A}+\textrm{A}$$ A + A and $$\textrm{p} + \textrm{A}$$ p + A collisions

  • Coleridge Faraday,
  • Antonia Grindrod,
  • W. A. Horowitz

DOI
https://doi.org/10.1140/epjc/s10052-023-12234-y
Journal volume & issue
Vol. 83, no. 11
pp. 1 – 25

Abstract

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Abstract We present the first leading hadron suppression predictions in $$\textrm{Pb}+\textrm{Pb}$$ Pb + Pb and $$\textrm{p}+\textrm{Pb}$$ p + Pb collisions from a convolved radiative and collisional energy loss model in which partons propagate through a realistic background and in which the radiative energy loss receives a short pathlength correction. We find that the short pathlength correction is small for D and B meson $$R_{AA}(p_T)$$ R AA ( p T ) in both $$\textrm{Pb}+\textrm{Pb}$$ Pb + Pb and $$\textrm{p}+\textrm{Pb}$$ p + Pb collisions. However the short pathlength correction leads to a surprisingly large reduction in suppression for $$\pi $$ π mesons in $$\textrm{p}+\textrm{Pb}$$ p + Pb and even $$\textrm{Pb}+\textrm{Pb}$$ Pb + Pb collisions. We systematically check the consistency of the assumptions used in the radiative energy loss derivation-such as collinearity, softness, and large formation time-with the final numerical model. While collinearity and softness are self-consistently satisfied in the final numerics, we find that the large formation time approximation breaks down at modest to high momenta $$p_T \gtrsim 30~\textrm{GeV}$$ p T ≳ 30 GeV . We find that both the size of the small pathlength correction to $$R_{AA}(p_T)$$ R AA ( p T ) and the $$p_T$$ p T at which the large formation time assumption breaks down are acutely sensitive to the chosen distribution of scattering centers in the plasma.