H. Kalechofsky scite author profile

Transverse mass spectra of pions, kaons, and protons from the symmetric heavy-ion collisions 200A GeV S 1 S and 158A GeV Pb 1 Pb, measured in the NA44 focusing spectrometer at CERN, are presented. The mass dependence of the slope parameters provides evidence of collective transverse flow from expansion of the system in heavy-ion induced central collisions. The purpose of studying ultrarelativistic heavy-ion collisions is to understand the nature of hadronic matter under extreme conditions. Specifically, we are interested in a new form of matter, quark-gluon plasma, which may be produced in such collisions. Transverse momentum distributions are one of the most common tools used in studying high energy collisions. This is because the transverse motion is generated during the collision and hence is sensitive to the dynamics. More than 45 years ago, Fermi proposed a statistical method [1] to understand the results of high energy hadron-hadron collisions. Because of saturation of the phase space, the multiparticle production resulting from the high energy elementary collisions is consistent with a thermal description [1][2][3]. In heavy-ion collisions hydrodynamical behavior, that is, local thermal equilibrium and collective motion, may be expected because of the large number of secondary scatterings.It is now possible to identify and quantitatively measure the collective motion by systematic studies of results from different collision systems, using light (Si at BNL and S at CERN) and heavy (Au at BNL and Pb at CERN) ion beams [4][5][6]. A high degree of nuclear stopping and a strong Coulomb effect (also due to the high stopping) have already been reported in Pb 1 Pb central collisions [7,8]. In this Letter, we present transverse momentum distributions of pions, kaons, and protons, measured in the NA44 spectrometer, from Pb 1 Pb and S 1 S collisions. Results of calculations from a hydrodynamical model [5] will be used to aid in this analysis.The NA44 magnetic focusing spectrometer consists of two room-temperature dipoles and three superconducting quadruples. Particles originating from the target are focused at a plane about ten meters downstream and detected by a tracking system consisting of a pad chamberstrip chamber-scintillator hodoscope complex. Particle identification is done with two threshold Cherenkov counters and two highly segmented TOF hodoscopes. The phase-space coverage (transverse momentum p T vs rapidity y) is determined by the combination of the spectrometer angle (relative to the beam direction) and the nominal momentum setting of the magnets. The momentum resolution is typically s p ͞p # 0.2% and the TOF counters have an average time resolution of 100 ps. More details of the spectrometer can be found elsewhere [9].The spectrometer momentum range is 620% around the nominal values of 4 and 8 GeV͞c. For kaons and protons, the 8 GeV͞c setting was used and the rapidity coverage is (2.5-3.4) and (2.4-2.8) for kaons and protons, respectively. Two angular settings (44 and 130 mrad) were utilized in order ...

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Observation of Direct Photons in Central158AGeVP208b
Aggarwal¹,
Agnihotri²,
Ahammed³
et al. 2000
Phys. Rev. Lett.
185
3
97
0
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A measurement of direct photon production in 208 Pb+ 208 Pb collisions at 158 A GeV has been carried out in the CERN WA98 experiment. The invariant yield of direct photons in central collisions is extracted as a function of transverse momentum in the interval 0.5 < pT < 4 GeV/c. A significant direct photon signal, compared to statistical and systematical errors, is seen at pT > 1.5 GeV/c. The results constitute the first observation of direct photons in ultrarelativistic heavy-ion collisions which could be significant for diagnosis of quark gluon plasma formation. 25.75.+r,13.40.-f,24.90.+p 1

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mTDependence of Boson Interferometry in Heavy Ion Collisions at the CERN SPS

Beker¹,

Bøggild²,

Boissevain³

et al. 1995

Phys. Rev. Lett.

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Single particle spectra from NA44

Bøggild¹,

Boissevain²,

Cherney³

et al. 1994

Nuclear Physics A

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Quantum mechanical localization effects for Bose-Einstein correlations

et al. 1997

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For a set of N identical massive boson wavepackets with optimal initial quantum mechanical localization, we calculate the Hanbury-Brown/Twiss (HBT) two-particle correlation function. Our result provides an algorithm for calculating one-particle spectra and two-particle correlations from an arbitrary phase space occupation (qi, pi, ti)i=1,N as e.g. returned by event generators. It is a microscopic derivation of the result of the coherent state formalism, providing explicit finite multiplicity corrections. Both the one-and two-particle spectra depend explicitly on the initial wavepacket width σ which parametrizes the quantum mechanical wavepacket localization. They provide upper and lower bounds which suggest that a realistic value for σ has the order of the Compton wavelength.

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H. Kalechofsky

Collective Expansion in High Energy Heavy Ion Collisions

Observation of Direct Photons in Central158AGeVP208b
Aggarwal¹,
Agnihotri²,
Ahammed³
et al. 2000
Phys. Rev. Lett.
185
3
97
0
View full text Add to dashboard Cite

mTDependence of Boson Interferometry in Heavy Ion Collisions at the CERN SPS

Single particle spectra from NA44

Quantum mechanical localization effects for Bose-Einstein correlations

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Resources

About

H. Kalechofsky

Collective Expansion in High Energy Heavy Ion Collisions

Observation of Direct Photons in Central158AGeVP208bAggarwal1, Agnihotri2, Ahammed3 et al. 2000Phys. Rev. Lett.1853970View full textAdd to dashboardCite

mTDependence of Boson Interferometry in Heavy Ion Collisions at the CERN SPS

Single particle spectra from NA44

Quantum mechanical localization effects for Bose-Einstein correlations

Contact Info

Product

Resources

About

Observation of Direct Photons in Central158AGeVP208b
Aggarwal¹,
Agnihotri²,
Ahammed³
et al. 2000
Phys. Rev. Lett.
185
3
97
0
View full text Add to dashboard Cite