Mai-Ying Duan scite author profile

This paper will discuss the design and construction of BESIII [1], which is designed to study physics in the τ-charm energy region utilizing the new high luminosity BEPCII double ring e + ecollider [2]. The expected performance will be given based on Monte Carlo simulations and results of cosmic ray and beam tests. In BESIII, tracking and momentum measurements for charged particles are made by a cylindrical multilayer drift chamber in a 1 T superconducting solenoid. Charged particles are identified with a time-of-flight system based on plastic scintillators in conjunction with dE/dx (energy loss per unit pathlength) measurements in the drift chamber. Energies of electromagnetic showers are measured by a CsI(Tl) crystal calorimeter located inside the solenoid magnet. Muons are identified by arrays of resistive plate chambers in the steel magnetic flux return. The level 1 trigger system, Data Acquisition system and the event filter system based on networked computers will also be described.

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Examining the model dependence of the determination of kinetic freeze-out temperature and transverse flow velocity in small collision system

Lao

Liu

et al. 2018

NUCL SCI TECH

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The transverse momentum distributions of the identified particles produced in small collision systems at the Relativistic Heavy Ion Collider (RHIC) and Large Hadron Collider (LHC) have been analyzed by four models. The first two models utilize the blast-wave model with different statistics. The last two models employ certain linear correspondences based on different distributions. The four models describe the experimental data measured by the Pioneering High Energy Nuclear Interaction eXperiment (PHENIX), Solenoidal Tracker at RHIC (STAR), and A Large Ion Collider Experiment (ALICE) cCollaborations equally well. It is found that both the kinetic freeze-out temperature and transverse flow velocity in the central collisions are comparable with those in the peripheral collisions. With the increase of collision energy from that of the RHIC to that of the LHC, the considered quantities typically do not decrease. Comparing with the central collisions, the proton-proton collisions are closer to the peripheral collisions.R 0 rβ(r)dr = 2β S /(n 0 + 2) = 0.5β S . ii) TBW model [9]: in this model we also considered a non-zero β T .

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Kinetic freeze-out temperatures in central and peripheral collisions: which one is larger?

Lao

Liu

et al. 2018

NUCL SCI TECH

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The kinetic freeze-out temperatures, T 0 , in nucleus-nucleus collisions at the Relativistic Heavy Ion Collider (RHIC) and Large Hadron Collider (LHC) energies are extracted by four methods: i) the Blast-Wave model with Boltzmann-Gibbs statistics (the BGBW model), ii) the Blast-Wave model with Tsallis statistics (the TBW model), iii) the Tsallis distribution with flow effect (the improved Tsallis distribution), and iv) the intercept in T = T 0 + am 0 (the alternative method), where m 0 denotes the rest mass and T denotes the effective temperature which can be obtained by different distribution functions. It is found that the relative sizes of T 0 in central and peripheral collisions obtained by the conventional BGBW model which uses a zero or nearly zero transverse flow velocity, β T , are contradictory in tendency with other methods. With a re-examination for β T in the first method in which β T is taken to be ∼ (0.40 ± 0.07)c, a recalculation presents a consistent result with others. Finally, our results show that the kinetic freeze-out temperature in central collisions is larger than that in peripheral collisions.R 0 rβ(r)dr = 2β S /(n 0 +2). In the case of n 0 = 2 as used in ref.[11], we have β T = 0.5β S [31].According to refs. [14], the TBW model results in

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Mai-Ying Duan

Design and construction of the BESIII detector

Examining the model dependence of the determination of kinetic freeze-out temperature and transverse flow velocity in small collision system

Kinetic freeze-out temperatures in central and peripheral collisions: which one is larger?

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