W. Q. Shen scite author profile

We report the beam energy ( √ sNN = 7.7 -200 GeV) and collision centrality dependence of the mean (M ), standard deviation (σ), skewness (S), and kurtosis (κ) of the net-proton multiplicity distributions in Au+Au collisions. The measurements are carried out by the STAR experiment at midrapidity (|y| < 0.5) and within the transverse momentum range 0.4 < pT < 0.8 GeV/c in the first phase of the Beam Energy Scan program at the Relativistic Heavy Ion Collider. These measurements are important for understanding the Quantum Chromodynamic (QCD) phase diagram.

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Direct Observation of Dijets in CentralAu+AuCollisions atsNN=200 GeV

Adams¹,

Aggarwal²,

Ahammed³

et al. 2006

Phys. Rev. Lett.

221

140

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The STAR Collaboration at the Relativistic Heavy Ion Collider reports measurements of azimuthal correlations of high transverse momentum (pT) charged hadrons in Au+Au collisions at higher pT than reported previously. As (pT) is increased, a narrow, back-to-back peak emerges above the decreasing background, providing a clear dijet signal for all collision centralities studied. Using these correlations, we perform a systematic study of dijet production and suppression in nuclear collisions, providing new constraints on the mechanisms underlying partonic energy loss in dense matter.

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Multiplicity dependence of inclusiveptspectra fromp−pcollisions ats=2

Adams¹,

Aggarwal²,

Ahammed³

et al. 2006

Phys. Rev. D

123

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We report measurements of transverse momentum p t spectra for ten event multiplicity classes of p-p collisions at s p 200 GeV. By analyzing the multiplicity dependence we find that the spectrum shape can be decomposed into a part with amplitude proportional to multiplicity and described by a Lévy distribution on transverse mass m t , and a part with amplitude proportional to multiplicity squared and described by a Gaussian distribution on transverse rapidity y t . The functional forms of the two parts are nearly independent of event multiplicity. The two parts can be identified with the soft and hard components of a two-component model of p-p collisions. This analysis then provides the first isolation of the hard component of the p t spectrum as a distribution of simple form on y t .

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Total reaction cross section for heavy-ion collisions and its relation to the neutron excess degree of freedom

et al. 1989

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Nonmonotonic Energy Dependence of Net-Proton Number Fluctuations

Adam¹,

Adamczyk²,

Adams³

et al. 2021

Phys. Rev. Lett.

160

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Light particle probes of expansion and temperature evolution: Coalescence model analyses of heavy ion collisions at47A MeV

et al. 2000

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The reactions 12 Cϩ 116 Sn, 22 NeϩAg, 40 Arϩ 100 Mo, and 64 Znϩ 89 Y have been studied at 47A MeV projectile energy. For these reactions the most violent collisions lead to increasing amounts of fragment and light particle emission as the projectile mass increases. This is consistent with quantum molecular dynamics ͑QMD͒ model simulations of the collisions. Moving source fits to the light charged particle data have been used to gain a global view of the evolution of the particle emission. Comparisons of the multiplicities and spectra of light charged particles emitted in the reactions with the four different projectiles indicate a common emission mechanism for early emitted ejectiles even though the deposited excitation energies differ greatly. The spectra for such ejectiles can be characterized as emission in the nucleon-nucleon frame. Evidence that the 3 He yield is dominated by this type of emission and the role of the collision dynamics in determining the 3 H/ 3 He yield ratio are discussed. Self-consistent coalescence model analyses are applied to the light cluster yields, in an attempt to probe emitter source sizes and to follow the evolution of the temperatures and densities from the time of first particle emission to equilibration. These analyses exploit correlations between ejectile energy and emission time, suggested by the QMD calculations. In this analysis the degree of expansion of the emitting system is found to increase with increasing projectile mass. The double isotope yield ratio temperature drops as the system expands. Average densities as low as 0.36 0 are reached at a time near 100 fm/c after contact. Calorimetric methods were used to derive the mass and excitation energy of the excited nuclei which are present after preequilibrium emission. The derived masses range from 102 to 116 u and the derived excitation energies increase from 2.6 to 6.9 MeV/nucleon with increasing projectile mass. A caloric curve is derived for these expanded Aϳ110 nuclei. This caloric curve exhibits a plateau at temperatures near 7 MeV. The plateau extends from ϳ3.5 to 6.9 MeV/nucleon excitation energy.PACS number͑s͒: 25.70.Mn, 24.10.Lx

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Identified Baryon and Meson Distributions at Large Transverse Momenta fromAu+AuCollisions atsNN=200
Abelev¹,
Aggarwal²,
Ahammed³
et al. 2006
Phys. Rev. Lett.
272
12
78
1
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Transverse momentum spectra of pi+/-, p, and p up to 12 GeV/c at midrapidity in centrality selected Au + Au collisions at square root sNN=200 GeV are presented. In central Au + Au collisions, both pi +/- and p(p) show significant suppression with respect to binary scaling at pT approximately >4 GeV/c. Protons and antiprotons are less suppressed than pi+/-, in the range 1.5 approximately < pT approximately < 6 GeV/c. The pi-/pi+ and p/p ratios show at most a weak pT dependence and no significant centrality dependence. The p/pi ratios in central Au + Au collisions approach the values in p + p and d + Au collisions at pT approximately >5 GeV/c. The results at high pT indicate that the partonic sources of pi+/-, p, and p have similar energy loss when traversing the nuclear medium.

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In-medium nucleon-nucleon cross section and its effect on total nuclear reaction cross section

et al. 1998

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W. Q. Shen

Energy Dependence of Moments of Net-Proton Multiplicity Distributions at RHIC

Direct Observation of Dijets in CentralAu+AuCollisions atsNN=200 GeV

Multiplicity dependence of inclusiveptspectra fromp−pcollisions ats=2

Total reaction cross section for heavy-ion collisions and its relation to the neutron excess degree of freedom

Nonmonotonic Energy Dependence of Net-Proton Number Fluctuations

Light particle probes of expansion and temperature evolution: Coalescence model analyses of heavy ion collisions at47A MeV

Identified Baryon and Meson Distributions at Large Transverse Momenta fromAu+AuCollisions atsNN=200
Abelev¹,
Aggarwal²,
Ahammed³
et al. 2006
Phys. Rev. Lett.
272
12
78
1
View full text Add to dashboard Cite

In-medium nucleon-nucleon cross section and its effect on total nuclear reaction cross section

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W. Q. Shen

Energy Dependence of Moments of Net-Proton Multiplicity Distributions at RHIC

Direct Observation of Dijets in CentralAu+AuCollisions atsNN=200 GeV

Multiplicity dependence of inclusiveptspectra fromp−pcollisions ats=2

Total reaction cross section for heavy-ion collisions and its relation to the neutron excess degree of freedom

Nonmonotonic Energy Dependence of Net-Proton Number Fluctuations

Light particle probes of expansion and temperature evolution: Coalescence model analyses of heavy ion collisions at47A MeV

Identified Baryon and Meson Distributions at Large Transverse Momenta fromAu+AuCollisions atsNN=200 Abelev1, Aggarwal2, Ahammed3 et al. 2006Phys. Rev. Lett.27212781View full textAdd to dashboardCite

In-medium nucleon-nucleon cross section and its effect on total nuclear reaction cross section

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Resources

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Identified Baryon and Meson Distributions at Large Transverse Momenta fromAu+AuCollisions atsNN=200
Abelev¹,
Aggarwal²,
Ahammed³
et al. 2006
Phys. Rev. Lett.
272
12
78
1
View full text Add to dashboard Cite