Abstract
The invariant differential cross sections for inclusive pi ^{0} and eta mesons at midrapidity were measured in pp collisions at sqrt{s}=2.76 TeV for transverse momenta 0.4<p_{mathrm {T}}<40 GeV/c and 0.6<p_{mathrm {T}}<20 GeV/c, respectively, using the ALICE detector. This large range in p_{mathrm {T}} was achieved by combining various analysis techniques and different triggers involving the electromagnetic calorimeter (EMCal). In particular, a new single-cluster, shower-shape based method was developed for the identification of high-p_{mathrm {T}} neutral pions, which exploits that the showers originating from their decay photons overlap in the EMCal. Above 4 GeV/c, the measured cross sections are found to exhibit a similar power-law behavior with an exponent of about 6.3. Next-to-leading-order perturbative QCD calculations differ from the measured cross sections by about 30% for the pi ^{0}, and between 30–50% for the eta meson, while generator-level simulations with PYTHIA 8.2 describe the data to better than 10–30%, except at p_{mathrm {T}}<1 GeV/c. The new data can therefore be used to further improve the theoretical description of pi ^{0} and eta meson production.
Highlights
Measurements of identified hadron spectra in proton–proton collisions are well suited to constrain predictions from Quantum Chromodynamics (QCD) [1]
It can be obtained from the ratio R of the number of clusters reconstructed in Electromagnetic Calorimeter (EMCal) triggered events to those in minimum bias events at high cluster energy E where R should be approximately constant, assuming the trigger does not affect the cluster reconstruction efficiency, but only the overall rate of clusters
Since the meson measurements with Photon Spectrometer (PHOS), photon conversion method (PCM), EMC, PCM–EMC and merged in the EMCal (mEMC) have partly uncorrelated systematic uncertainties, their combination will increase the precision of the respective cross section measurements
Summary
Measurements of identified hadron spectra in proton–proton (pp) collisions are well suited to constrain predictions from Quantum Chromodynamics (QCD) [1]. While the collision energy ( s) from gluon dependence fragmentaof π 0 cross sections has been useful for guiding the parametrization of the FFs [3], experimental data for neutral pions [4,5] at the LHC are not available above 20 GeV/c, where quark fragmentation starts to play a role. The new π 0 data presented in this pape√r extend our previous measurement [5] in pp collisions at s = 2.76 TeV to pT values of 40 GeV/c allowing one to investigate the pT dependence of the π 0 cross section at high transverse momentum.
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