T. Majoros scite author profile

We present the first measurements of long-range angular correlations and the transverse momentum dependence of elliptic flow v2 in high-multiplicity p+Au collisions at √ s N N = 200 GeV. A comparison of these results with previous measurements in high-multiplicity d+Au and 3 He+Au collisions demonstrates a relation between v2 and the initial collision eccentricity ε2, suggesting that the observed momentum-space azimuthal anisotropies in these small systems have a collective origin 3 and reflect the initial geometry. Good agreement is observed between the measured v2 and hydrodynamic calculations for all systems, and an argument disfavoring theoretical explanations based on initial momentum-space domain correlations is presented. The set of measurements presented here allows us to leverage the distinct intrinsic geometry of each of these systems to distinguish between different theoretical descriptions of the long-range correlations observed in small collision systems.

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Beam Energy and Centrality Dependence of Direct-Photon Emission from Ultrarelativistic Heavy-Ion Collisions

Adare¹,

Afanasiev²,

Aidala³

et al. 2019

Phys. Rev. Lett.

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Nonperturbative-transverse-momentum effects and evolution in dihadron and direct photon-hadron angular correlations in p+p collisions at s=510
Adare¹,
Aidala²,
Ajitanand³
et al. 2017
Phys. Rev. D
15
2
40
2
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Measurements of Multiparticle Correlations in d+Au Collisions at 200, 62.4, 39, and 19.6 GeV and p+Au Collisions at 200 GeV and Implications for Collective Behavior

Aidala¹,

Akiba²,

Alfred³

et al. 2018

Phys. Rev. Lett.

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Recently, multiparticle-correlation measurements of relativistic p/d/^{3}He+Au, p+Pb, and even p+p collisions show surprising collective signatures. Here, we present beam-energy-scan measurements of two-, four-, and six-particle angular correlations in d+Au collisions at sqrt[s_{NN}]=200, 62.4, 39, and 19.6 GeV. We also present measurements of two- and four-particle angular correlations in p+Au collisions at sqrt[s_{NN}]=200 GeV. We find the four-particle cumulant to be real valued for d+Au collisions at all four energies. We also find that the four-particle cumulant in p+Au has the opposite sign as that in d+Au. Further, we find that the six-particle cumulant agrees with the four-particle cumulant in d+Au collisions at 200 GeV, indicating that nonflow effects are subdominant. These observations provide strong evidence that the correlations originate from the initial geometric configuration, which is then translated into the momentum distribution for all particles, commonly referred to as collectivity.

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Measurements of μμ pairs from open heavy flavor and Drell-Yan in p+p collisions at s=200
Aidala¹,
Akiba²,
Alfred³
et al. 2019
Phys. Rev. D
41
2
39
0
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PHENIX reports differential cross sections of μμ pairs from semileptonic heavy-flavor decays and the Drell-Yan production mechanism measured in p þ p collisions at ffiffi ffi s p ¼ 200 GeV at forward and backward rapidity (1.2 < jηj < 2.2). The μμ pairs from cc, bb, and Drell-Yan are separated using a template fit to unlike-and like-sign muon pair spectra in mass and p T. The azimuthal opening angle correlation between the muons from cc and bb decays and the pair-p T distributions are compared to distributions generated using PYTHIA and POWHEG models, which both include next-to-leading order processes. The measured distributions for pairs from cc are consistent with PYTHIA calculations. The cc data present narrower azimuthal correlations and softer p T distributions compared to distributions generated from POWHEG. The bb data are well described by both models. The extrapolated total cross section for bottom production is 3.75 AE 0.24ðstatÞ AE 0.35 0.50 ðsystÞ AE 0.45ðglobalÞ ½μb, which is consistent with previous measurements at the Relativistic Heavy Ion Collider in the same system at the same collision energy and is approximately a factor of 2 higher than the central value calculated with theoretical models. The measured Drell-Yan cross section is in good agreement with next-to-leading-order quantumchromodynamics calculations.

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T. Majoros

Measurement of long-range angular correlations and azimuthal anisotropies in high-multiplicity p+Au collisions at sNN=200 GeV

Beam Energy and Centrality Dependence of Direct-Photon Emission from Ultrarelativistic Heavy-Ion Collisions

Nonperturbative-transverse-momentum effects and evolution in dihadron and direct photon-hadron angular correlations in p+p collisions at s=510
Adare¹,
Aidala²,
Ajitanand³
et al. 2017
Phys. Rev. D
15
2
40
2
View full text Add to dashboard Cite

Measurements of Multiparticle Correlations in d+Au Collisions at 200, 62.4, 39, and 19.6 GeV and p+Au Collisions at 200 GeV and Implications for Collective Behavior

Measurements of μμ pairs from open heavy flavor and Drell-Yan in p+p collisions at s=200
Aidala¹,
Akiba²,
Alfred³
et al. 2019
Phys. Rev. D
41
2
39
0
View full text Add to dashboard Cite

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T. Majoros

Measurement of long-range angular correlations and azimuthal anisotropies in high-multiplicity p+Au collisions at sNN=200 GeV

Beam Energy and Centrality Dependence of Direct-Photon Emission from Ultrarelativistic Heavy-Ion Collisions

Nonperturbative-transverse-momentum effects and evolution in dihadron and direct photon-hadron angular correlations in p+p collisions at s=510Adare1, Aidala2, Ajitanand3 et al. 2017Phys. Rev. D152402View full textAdd to dashboardCite

Measurements of Multiparticle Correlations in d+Au Collisions at 200, 62.4, 39, and 19.6 GeV and p+Au Collisions at 200 GeV and Implications for Collective Behavior

Measurements of μμ pairs from open heavy flavor and Drell-Yan in p+p collisions at s=200 Aidala1, Akiba2, Alfred3 et al. 2019Phys. Rev. D412390View full textAdd to dashboardCite

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Nonperturbative-transverse-momentum effects and evolution in dihadron and direct photon-hadron angular correlations in p+p collisions at s=510
Adare¹,
Aidala²,
Ajitanand³
et al. 2017
Phys. Rev. D
15
2
40
2
View full text Add to dashboard Cite

Measurements of μμ pairs from open heavy flavor and Drell-Yan in p+p collisions at s=200
Aidala¹,
Akiba²,
Alfred³
et al. 2019
Phys. Rev. D
41
2
39
0
View full text Add to dashboard Cite