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Lukasz Kamil Graczykowski (Warsaw University of Technology (PL))07/01/2018, 11:00
Two-particle correlations have proven to be a robust tool which allow the exploration of many physics phenomena present in high-energy particle collisions. In this talk we would like to focus on two techniques, namely femtoscopy and angular correlations, covering their most recent results from the ALICE experiment.
Femtoscopic correlations which arise from quantum statistics and final-state...
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Diana Pawłowska07/01/2018, 11:25
Heavy-ion collision experiments are developed to study the properties of strongly interacting matter at high energies. The main aim is to investigate the Quark-Gluon Plasma (QGP), which consist of free quarks and gluons. Using the femtoscopic methods, the information about the space-time characteristics of the particle emitting source, like the radii of such source, is obtained. For needs of...
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Daniel Wielanek (Warsaw University of Technology)07/01/2018, 11:50
MPD (Multi Purpose Detector) will be future experiment at NICA facility. NICA complex is dedicated to study phase diagram of QCD matter at high baryonic densities.
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We present current status of preparation for femtoscopic measurements in MPD. We present femtoscopic observables for AuAu collisions at Beam Energy Scan energies (\sqrt{s_{NN}} 7.7-62.4 GeV) calculated with viscous hydro + cascade... -
Paweł Szymański (Warsaw University of Technology)07/01/2018, 12:15
Heavy-ion collisions allow us to study the properties of nuclear matter – especially Quark-Gluon Plasma (QGP) state, where the quarks and gluons are deconfined. To study space-time parameters the method of femtoscopy is used. This method provides measuring the size of the particle-emitting source which is not measurable directly. From non-identical particles correlations, we can obtain...
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Prof. Johann Rafelski (University of Arizona (US))07/01/2018, 12:40
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