2002
DOI: 10.1103/physrevlett.88.232303
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Cronin Effect in Hadron Production Off Nuclei

Abstract: Recent data from RHIC for high-pT hadrons in gold-gold collisions raised again the long standing problem of quantitatively understanding the Cronin effect, i.e. nuclear enhancement of high-pT hadrons due to multiple interactions in nuclear matter. In nucleus-nucleus collisions this effect has to be reliably calculated as baseline for a signal of new physics in high-pT hadron production. The only possibility to test models is to compare with available data for pA collisions, however, all existing models for the… Show more

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Cited by 163 publications
(305 citation statements)
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“…This 'Cronin effect' is probably related to an increase of the average transverse momentum squared k 2 ⊥ of the partons in the nuclear medium. One may speculate that such an enhancement of k 2 ⊥ is due to induced initial semi-hard gluon radiation in the medium, which is not present in the vacuum due to color neutrality [25,37]. Since the microscopic mechanisms are beyond the scope of our present analysis, we simulate this effect in the transport approach by increasing the average k 2 ⊥ in the string fragmentation with the number of previous collisions N prev as [35,53,59]…”
Section: Perturbative Treatment Of High P ⊥ Hadrons and Jetsmentioning
confidence: 99%
“…This 'Cronin effect' is probably related to an increase of the average transverse momentum squared k 2 ⊥ of the partons in the nuclear medium. One may speculate that such an enhancement of k 2 ⊥ is due to induced initial semi-hard gluon radiation in the medium, which is not present in the vacuum due to color neutrality [25,37]. Since the microscopic mechanisms are beyond the scope of our present analysis, we simulate this effect in the transport approach by increasing the average k 2 ⊥ in the string fragmentation with the number of previous collisions N prev as [35,53,59]…”
Section: Perturbative Treatment Of High P ⊥ Hadrons and Jetsmentioning
confidence: 99%
“…The leading twist nuclear shadowing calculation [60] assumes the GlauberGribov approach of the collision geometry and predicts the dependence of the nPDF on the collision impact parameter. The estimates of the initial-state k T broadening due to multiple soft collisions also consider a dependence on the collision impact parameter [46,47]. Initial-state parton energy loss is also expected to evolve with the collision geometry as a consequence of the different nuclear density, though detailed calculations including this effect are not yet available.…”
Section: Jhep08(2016)078mentioning
confidence: 99%
“…Alternatively, when the production process is dominated by gluons at low Bjorken-x, the nucleus can be described by the Colour-Glass Condensate (CGC) effective theory as a coherent and saturated gluonic system [41][42][43][44]. The kinematics of the partons in the initial state can be affected by multiple scatterings (transverse momentum broadening, or k T broadening) [45][46][47] or by gluon radiation (energy loss) [48] before the heavy-quark pair is produced. Gluon radiation may also occur after the heavy-quark pair…”
Section: Jhep08(2016)078mentioning
confidence: 99%
“…If the coherence length is longer than the nuclear radius all amplitudes interfere coherently and result in a collective parton distribution of the nucleus. In this regime hard partons originate mainly from radiated gluons and the gluon shadowing is responsible of a reduction of the Cronin effect [82][83][84].…”
Section: Initial State Multiple Scattering and Energy Lossmentioning
confidence: 99%