1964
DOI: 10.1103/physrevlett.12.204
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Observation of a Hyperon with Strangeness Minus Three

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Cited by 335 publications
(67 citation statements)
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“…At LHC energies, it is mostly caused by a hadronic redistribution of the momentum anisotropy already established in the QGP phase in p T and among the various different hadronic species, due the hadronic increase in radial flow that pushes v 2 to larger p T , especially for heavy particles [37]. This effect is sensitive to the chemical composition in the hadron gas [38][39][40][41], and a corresponding hadronic increase of v 2 (p T ) is not observed in purely hydrodynamic calculations with an equation of state that (incorrectly) assumes chemical equilibrium among the hadrons even below the chemical decoupling temperature T chem ≈ 165 MeV [8]. Fig.…”
Section: Hard Processesmentioning
confidence: 97%
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“…At LHC energies, it is mostly caused by a hadronic redistribution of the momentum anisotropy already established in the QGP phase in p T and among the various different hadronic species, due the hadronic increase in radial flow that pushes v 2 to larger p T , especially for heavy particles [37]. This effect is sensitive to the chemical composition in the hadron gas [38][39][40][41], and a corresponding hadronic increase of v 2 (p T ) is not observed in purely hydrodynamic calculations with an equation of state that (incorrectly) assumes chemical equilibrium among the hadrons even below the chemical decoupling temperature T chem ≈ 165 MeV [8]. Fig.…”
Section: Hard Processesmentioning
confidence: 97%
“…Typically, they are expressed as an average momentum shift [2,36] and related to "splashout"hadronization effects and "splash-in" initial-state radiation/background contribution: δp T = A/R + BR 2 . The physical effect of a momentum shift is to alter the measured cross section and this change can be isolated in a multiplicative factor [8]. Since background effects are the dominant uncertainty in jet heavy ion, we will discuss them separa mind, we consider a hadronization-motivated the ATLAS parametrization of non-perturbativ radii: Preliminary RHIC results suggest that the dence of jet attenuation has already been obs and Cu+Cu reactions at RHIC [14,15,16].…”
Section: Comparison At Fixed Suppression R7mentioning
confidence: 99%
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“…5, aparece a fotografia obtida pela GARGAMELLE no evento com elétron (primeiro experimento [65], ver mais adiante). As câmaras de bolhas foram instrumentos muitó uteis na física de altas energias, por exemplo, foi com uma delas usando hidrogênio líquido, que a partícula Ω − , predita pelo esquema do octeto, foi descoberta em 1964 [69]. Para mais detalhes das suas contribuiçõesà física de partículas elementares ver as Refs.…”
Section: Os Experimentos Da Colaboração Gargamelleunclassified