E. Johnson scite author profile

This paper describes the conclusions that can be drawn from the data taken thus far with the PHOBOS detector at RHIC. In the most central Au+Au collisions at the highest beam energy, evidence is found for the formation of a very high energy density system whose description in terms of simple hadronic degrees of freedom is inappropriate. Furthermore, the constituents of this novel system are found to undergo a significant level of interaction. The properties of particle production at RHIC energies are shown to follow a number of simple scaling behaviors, some of which continue trends found at lower energies or in simpler systems. As a function of centrality, the total number of charged particles scales with the number of participating nucleons. When comparing Au+Au at different centralities, the dependence of the yield on the number of participants at higher p T (∼4 GeV/c) is very similar to that at low transverse momentum. The measured values of charged particle pseudorapidity density and elliptic flow were found to be independent of energy over a broad range of pseudorapidities when effectively viewed in the rest frame of one of the colliding nuclei, a property we describe as "extended longitudinal scaling". Finally, the centrality and energy dependences of several observables were found to factorize to a surprising degree.

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Measurement of theWBoson Mass with the D0 Detector

Abazov¹,

Abbott²,

Acharya³

et al. 2012

Phys. Rev. Lett.

485

735

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Corrigendum to “The BRAHMS Collaboration” [Nucl. Phys. A 830 (2009) 941c]

et al. 2010

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Measurement of theWboson mass with the D0 detector

Abazov¹,

Abbott²,

Acharya³

et al. 2014

Phys. Rev. D

157

275

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We give a detailed description of the measurement of the W boson mass, MW , performed on an integrated luminosity of 4.3 fb −1 , which is based on similar techniques as used for our previous measurement done on an independent data set of 1 fb −1 of data. The data were collected using the D0 detector at the Fermilab Tevatron Collider. This data set yields 1.68 × 10 6 W → eν candidate events. We measure the mass using the transverse mass, electron transverse momentum, and missing transverse energy distributions. The MW measurements using the transverse mass and the electron transverse momentum distributions are the most precise of these three and are combined to give MW = 80.367 ± 0.013 (stat) ± 0.022 (syst) GeV = 80.367 ± 0.026 GeV. When combined with our earlier measurement on 1 fb −1 of data, we obtain MW = 80.375 ± 0.023 GeV.

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BRAHMS Collaboration

et al. 2006

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New PHOBOS results on event-by-event fluctuations

Alver¹,

Back²,

Baker³

et al. 2006

141

247

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Results from the PHOBOS Experiment at RHIC

Back¹,

Baker²,

Barton³

et al. 2002

APH

120

205

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System Size, Energy, Pseudorapidity, and Centrality Dependence of Elliptic Flow

Alver¹,

Back²,

Baker³

et al. 2007

Phys. Rev. Lett.

322

183

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This paper presents measurements of the elliptic flow of charged particles as a function of pseudorapidity and centrality from Cu-Cu collisions at 62.4 and 200 GeV using the PHOBOS detector at the Relativistic Heavy Ion Collider (RHIC). The elliptic flow in Cu-Cu collisions is found to be significant even for the most central events. For comparison with the Au-Au results, it is found that the detailed way in which the collision geometry (eccentricity) is estimated is of critical importance when scaling out system-size effects. A new form of eccentricity, called the participant eccentricity, is introduced which yields a scaled elliptic flow in the Cu-Cu system that has the same relative magnitude and qualitative features as that in the Au-Au system.

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E. Johnson

The PHOBOS perspective on discoveries at RHIC

Measurement of theWBoson Mass with the D0 Detector

Corrigendum to “The BRAHMS Collaboration” [Nucl. Phys. A 830 (2009) 941c]

Measurement of theWboson mass with the D0 detector

BRAHMS Collaboration

New PHOBOS results on event-by-event fluctuations

Results from the PHOBOS Experiment at RHIC

System Size, Energy, Pseudorapidity, and Centrality Dependence of Elliptic Flow

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