858 research outputs found
Minimum-Bias and Early QCD Physics in ALICE
A Large Ion Collider Experiment (ALICE) is the dedicated heavy-ion experiment
at the Large Hadron Collider (LHC). In addition to its heavy-ion physics
program, it also has a rich proton-proton physics program benefiting from a
detector with a low momentum cut-off (pT about 50 MeV/c) and a small material
budget (about 11% of a radiation length until the outer wall of the main
tracking detector, the Time-Projection Chamber). ALICE has excellent means of
particle identification (PID) with methods ranging from specific energy loss
and time of flight to transition and Cherenkov radiation. The good primary and
secondary vertex resolution allows for measurements of strangeness and heavy
flavor with low backgrounds. ALICE has taken proton-proton collision data at
0.9, 2.36, and 7 TeV. In this article results of the first minimum-bias and
soft-QCD measurements are presented. Inclusive pseudorapidity, multiplicity,
and transverse momentum distributions are discussed as well as distributions of
identified particles including strange particles. Further, results on two-pion
Bose-Einstein correlations and the antiproton-to-proton ratio in collisions at
the LHC are shown.Comment: Proceedings of the Hadron Collider Physics Symposium 201
Event-Shape Engineering and Muon-Hadron Correlations with ALICE
Angular correlations of two and more particles are a sensitive probe of the
initial state and the transport properties of the system produced in heavy-ion
collisions. Two recent results of the ALICE collaboration are presented.
Event-shape engineering, a novel method, is applied to Pb-Pb collisions which
splits events within the same centrality interval into classes with different
average flow. The results indicate an interplay between radial and elliptic
flow likely related to the initial-state eccentricity. In pp and p-Pb
collisions, recent results revealed intriguing long-range correlation
structures reminiscent of features observed in heavy-ion collisions. The use of
forward detectors allowed to show that long-range correlation structures
persist also at large rapidities in p-Pb collisions.Comment: Proceedings of the European Physical Society Conference on High
Energy Physics (EPS-HEP2015), Vienna, Austria, 22-29 July 201
Overview of ALICE Results at Quark Matter 2014
The results released by the ALICE collaboration at Quark Matter 2014 address
topics from identified-particle jet fragmentation functions in pp collisions,
to the search for collective signatures in p-Pb collisions to precision
measurements of jet quenching with D mesons in Pb-Pb collisions. This paper
gives an overview of the contributions (31 parallel talks, 2 flash talks and 80
posters) by the ALICE collaboration at Quark Matter 2014.Comment: Proceedings for ALICE overview plenary at Quark Matter 201
Measurement of jet quenching with I_CP and I_AA,Pythia in Pb-Pb collisions at sqrt(s_NN) = 2.76 TeV with ALICE
This paper discusses the measurement of I_CP and I_AA,Pythia with ALICE (A
Large Ion Collider Experiment). An away-side suppression is found expected from
in-medium energy loss. Further, and unexpected, a near-side enhancement is seen
which has not been reported by previous experiments at lower energies.Comment: Proceedings: Rencontres de Moriond QCD and High Energy Interactions
201
Phenomenology of soft QCD: the role of minimum-bias measurements
This chapter summarizes minimum-bias measurements at the Large Hadron
Collider. In particular, the pseudorapidity density, the transverse-momentum
spectra, the multiplicity distribution, the correlation of average transverse
momentum and the multiplicity, and a measurement of minijets are presented. In
addition to an overview of the results obtained to date at the LHC, the
experimental challenges of defining particle and event sample and correcting to
this sample are discussed.Comment: Book chapter 12 of Multiple Parton Interactions at the LHC; published
in Adv. Ser. Direct. High Energy Phys., 29, 2018, doi: 10.1142/1064
The Future of High-Energy Heavy-Ion Facilities
The plans within the next decade of the high-energy heavy-ion facilities RHIC
at BNL and LHC at CERN are reviewed in detail, focusing on the physics
programme for 200 GeV. The expected data samples are
presented, together with a discussion of the physics programme and reach.
Selected performance studies are presented. An outlook is given on the plans
with these and new facilities beyond 2030.Comment: Proceedings of plenary talk at the XXVIIth International Conference
on Ultrarelativistic Nucleus-Nucleus Collisions (Quark Matter 2018
In-Medium Energy Loss and Correlations in Pb-Pb Collisions at sqrt(s_NN) = 2.76 TeV
ALICE (A Large Ion Collider Experiment) is the dedicated heavy-ion experiment
at the LHC. In fall 2010, Pb-Pb collisions were recorded at a center-of-mass
energy of 2.76 TeV per nucleon pair, about 14 times higher than the energy
achieved in A-A collisions at RHIC. The study of the produced hot and dense
matter with an unprecedented energy density allows the characterization of the
quark-gluon plasma, the deconfined state of quarks and gluons, predicted by
QCD. The study of in-medium partonic energy loss allows insights into the
density of the medium and the energy-loss mechanisms. This paper presents
results based on inclusive spectra as well as two and more-particle
correlations of charged particles. These are well suited to assess in-medium
effects, ranging from the suppression of particles (R_AA) and away-side jets
(I_AA) at high pT to long-range phenomena attributed to collective effects like
the ridge at low pT. The analysis is discussed and the results are presented in
the context of earlier RHIC measurements where appropriate.Comment: Proceedings for EPIC@LHC, Bari, Ital
Results from ALICE
ALICE, the dedicated heavy-ion experiment at the LHC, has also a rich pp program benefiting from its low material budget, low magnetic field, and its extensive particle identification capabilities. The talk presents recent measurements of relevance for cosmic-ray physics. In particular, ALICE measured the inelastic, single- and doublediffractive cross-sections in pp collisions at âs = 0.9, 2.76, and 7 TeV [1]. Further, the charged-particle pseudorapidity distribution (dNch/dη) in Pb-Pb collisions at âsNN = 2.76 TeV was measured over a large pseudorapidity range (-5.0 < η < 5.5) using collisions from displaced vertices [2]. Potential direct contributions of ALICE to cosmic-ray physics are also reviewed [3]
Quarkonia Measurements with the Central Detectors of ALICE
A Large Ion Collider Experiment - ALICE will become operational with the
startup of the Large Hadron Collider - LHC at the end of 2007. One focus of the
physics program is the measurement of quarkonia in proton-proton and lead-lead
collisions. Quarkonia states will be measured in two kinematic regions and
channels: di-muonic decays will be measured in the forward region by the muon
arm, the central part of the detector will measure di-electronic decays. The
presented studies show the expected performance of the di-electron measurement
in proton-proton and central lead-lead collisions.Comment: 6 pages, 7 figures, Proceedings of the QM 2006 poster sessio
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