Speaker
Description
Hadronic collisions produce prompt photons which are characterized by a large transverse momentum and absence of event activity in their vicinity. Photons are a robust probe of cold nuclear matter effects in small and large collision systems because they do not interact strongly and are thus insensitive to medium-induced final-state effects. Prompt photon production is dominated by the Compton process ($g\text{q}\rightarrow \text{q}\gamma$), making it sensitive to the gluon Parton Distribution Function (PDF), and provides a test of high momentum pQCD calculations. Recent experimental results indicate the need for corrections beyond NLO to describe their production accurately. This talk presents the measurement of isolated prompt photon production in pp and p--Pb collisions, measured with the ALICE detector. The isolation method is applied to suppresses the background photons produced in the fragmentation process and electromagnetic decays. The production cross sections in both systems will be presented and compared with NLO calculations using recent (n)PDFs and fragmentation functions. In addition, the nuclear modification factor $R_{\rm pA}$ is measured, quantifying possible modifications of the parton distributions inside the nucleus. This is the first time the isolated prompt photon $R_{\rm pA}$ has been measured for low transverse momenta of $p_{\mathrm{T}} < 20 $ GeV/$c$ -- a regime in which a sizeable suppression is predicted by theoretical calculations.
What kind of work does this abstract pertain to? | Experimental |
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Which experiment is this abstract related to? | ALICE |