Abstract
Comprehensive results on the production of unidentified charged particles, $\pi^{\pm}$, $\rm{K}^{\pm}$, $\rm{K}^{0}_{S}$, $\rm{K}$*(892)$^{0}$, $\rm{p}$, $\overline{\rm{p}}$, $\phi$(1020), $\Lambda$, $\overline{\Lambda}$, $\Xi^{-}$, $\overline{\Xi}^{+}$, $\Omega^{-}$ and $\overline{\Omega}^{+}$ hadrons in proton-proton (pp) collisions at $\sqrt{s}$ = 7 TeV at midrapidity ($|y| < 0.5$) as a function of charged-particle multiplicity density are presented. In order to avoid auto-correlation biases, the actual transverse momentum ($p_{\rm{T}}$) spectra of the particles under study and the event activity are measured in different rapidity windows. In the highest multiplicity class, the charged-particle density reaches about 3.5 times the value measured in inelastic collisions. While the yield of protons normalized to pions remains approximately constant as a function of multiplicity, the corresponding ratios of strange hadrons to pions show a significant enhancement that increases with increasing strangeness content. Furthermore, all identified particle to pion ratios are shown to depend solely on charged-particle multiplicity density, regardless of system type and collision energy. The evolution of the spectral shapes with multiplicity and hadron mass shows patterns that are similar to those observed in p-Pb and Pb-Pb collisions at LHC energies. The obtained $p_{\rm{T}}$ distributions and yields are compared to expectations from QCD-based pp event generators as well as to predictions from thermal and hydrodynamic models. These comparisons indicate that traces of a collective, equilibrated system are already present in high-multiplicity pp collisions.
Highlights
Several collective phenomena have been observed in high-multiplicity pp and p-Pb collisions that are reminiscent of observations attributed to the creation of a medium in thermal and kinematic equilibrium in Pb-Pb collisions
The transverse momentum distributions measured at midrapidity for the event classes defined in Table I are shown in Fig. 4 for unidentified charged particles (|η| < 0.5) and Fig. 5 for π ±, K±, KS0, K∗0, p, p, φ, −, +, −, TABLE VIII
The contributions that act differently in the various event classes are removed from the total, defining the Nch-independent ones, which are correlated across different multiplicity intervals
Summary
Several collective phenomena have been observed in high-multiplicity pp and p-Pb collisions that are reminiscent of observations attributed to the creation of a medium in thermal and kinematic equilibrium in Pb-Pb collisions. In p-Pb collisions, these include the observation of double-ridge structures on the near and away sides in twoparticle correlation studies [1], nonvanishing v2 coefficients in multiparticle cumulant studies [2], mass-dependent hardening of identified particle pT spectra [3,4,5], and consistency of integrated particle yield ratios with thermal model expectations at high multiplicities [6]. While double-ridge structures have already been observed in high-multiplicity pp collisions [7], a comprehensive study of identified-particle hadrochemistry as well as of the corresponding kinematics after hadronization has not yet been performed in these collisions: Such a study is the main topic covered in this paper.
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