Abstract
We present a study on the applicability of transverse mass scaling for identified particle spectra in proton-proton collisions at $\sqrt{s}=7$ TeV based on data taken by the ALICE experiment at the LHC. The measured yields are parametrized and compared to estimates obtained from a generalized transverse mass scaling approach applied to different reference particle spectra. It is found that generalized transverse mass scaling is not able to describe the measured spectra over the full range in transverse momentum. At low $p_{\rm T}$, deviations of $20$% or more are obtained, in particular if pions are used as reference particles. A better scaling performance is obtained, when kaons are used as reference particles. At high $p_{\rm T}$ all tested spectra with the possible exception of the charged kaons exhibit a scaling behavior. Investigating the feed-down contributions from resonance decays to the charged pion yields reveals, that using them as reference a general scaling may not be achievable. Our findings imply that for precision measurements of direct photon and di-electron spectra at low transverse momentum one should measure the relevant hadronic background, instead of relying on $m_{\rm T}$ scaling for its estimate.
Highlights
Already as early as 1965, Hagedorn proposed that the transverse mass spectra of hadrons in pp collisions should be governed by a universal scaling law, based on a statisticalthermodynamical approach for hadron production [1]
The spectra, expressed as a function of the transverse mass mT = pT2 + m20, should follow an exponential distribution with a universal inverse slope parameter. This parameter was originally identified as the highest possible temperature for hadronic matter
It was found that the mT spectra of different particle species (e.g., π −, K0, ρ0, and ω) produced in hadronic collisions at center-of-mass energies of 8–16 GeV are reasonably well described by an exponential or Bose-Einstein distribution with the inverse slope parameter being independent of the particle mass [2,3]
Summary
Already as early as 1965, Hagedorn proposed that the transverse mass spectra of hadrons in pp collisions should be governed by a universal scaling law, based on a statisticalthermodynamical approach for hadron production [1]. It was found that the mT spectra of mesons (φ, K±, and KS0 ) and baryons ( , , , and ) could be described separately by applying the approximate transverse mass scaling relation of t√he at s for φ pion or = 200 mesons proton, respectively, in pp and d-Au GanedV.kHaoonwseivnerp,pacdoilsliasgiorenesmaetn√t sw=as collisions observed 900 GeV, 2469-9985/2017/96(6)/064907(10). III, the measured yields are compared to the predictions obtained from applying the generalized mT-scaling relation to the parametrizations of different spectra They are compared to the particle ratios using the light mesons as reference particles.
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