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Study of Quark Gluon Plasma By Particle Correlations in Heavy Ion Collisions

Record Type:	Language materials, printed : Monograph/item
Title/Author:	Study of Quark Gluon Plasma By Particle Correlations in Heavy Ion Collisions/ by Li Yi.
Author:	Yi, Li.
Description:	XVI, 83 p. 54 illus., 42 illus. in color.online resource. :
Contained By:	Springer Nature eBook
Subject:	Nuclear physics. -
Online resource:	https://doi.org/10.1007/978-1-4939-6487-1
ISBN:	9781493964871

Study of Quark Gluon Plasma By Particle Correlations in Heavy Ion Collisions
Yi, Li.

Study of Quark Gluon Plasma By Particle Correlations in Heavy Ion Collisions[electronic resource] /by Li Yi. - 1st ed. 2016. - XVI, 83 p. 54 illus., 42 illus. in color.online resource. - Springer Theses, Recognizing Outstanding Ph.D. Research,2190-5053. - Springer Theses, Recognizing Outstanding Ph.D. Research,.

Introduction -- Quark Gluon Plasma - Heavy Ion Collisions -- Collective Flow -- Jet-medium Interactions -- Two-particle Δη-Δφ Correlation and the Ridge -- STAR Experiment -- Relativistic Heavy Ion Collider -- STAR Detector -- Higher Harmonics v3 -- Two-Particle Q-Cumulant Method -- Data Sample and Analysis Cuts -- v3 Measurement Result -- Isolation of Flow and Nonflow Correlations -- Analysis Method -- Data Analysis -- Results and Discussion -- Summary -- 'Ridge' in d+Au -- Data Sample and Analysis Cuts -- Centrality Definition in d+Au Collisions -- Correlation Analysis -- Two-Particle Correlation at Mid-Rapidity -- Event-Selection Effect on Jetlike Correlated Yield -- Two Particle Δφ Correlation at Forward Rapidities -- Near-Side Long-Range Ridge Δη Dependence -- Fourier Coefficients -- Summary -- Conclusion.

This thesis covers several important topics relevant to our understanding of quark-gluon plasma. It describes measurement of the third-order harmonic flow using two-particle correlations and isolation of flow and non-flow contributions to particle correlations in gold-gold collisions. The work also investigates long-range longitudinal correlations in small systems of deuteron-gold collisions. The former is related to the hydrodynamic transport properties of the quark-gluon plasma created in gold-gold collisions. The latter pertains to the question whether hydrodynamics is applicable to small systems, such as deuteron-gold collisions, and whether the quark-gluon plasma can be formed in those small-system collisions. The work presented in this thesis was conducted with the STAR experiment at the Relativistic Heavy Ion Collider at Brookhaven National Laboratory, where the center-of-mass energy of both collision systems was a factor of 100 larger than the rest mass of the colliding nuclei. The results contained in this thesis are highly relevant to our quest for deeper understanding of quantum chromodynamics. The results obtained challenge the interpretation of previous works from several other experiments on small systems, and provoke a fresh look at the physics of hydrodynamics and particle correlations pertinent to high energy nuclear collisions.

ISBN: 9781493964871

Standard No.: 10.1007/978-1-4939-6487-1doiSubjects--Topical Terms:

591618
Nuclear physics.

LC Class. No.: QC770-798

Dewey Class. No.: 539.7092

Study of Quark Gluon Plasma By Particle Correlations in Heavy Ion Collisions
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520 $a This thesis covers several important topics relevant to our understanding of quark-gluon plasma. It describes measurement of the third-order harmonic flow using two-particle correlations and isolation of flow and non-flow contributions to particle correlations in gold-gold collisions. The work also investigates long-range longitudinal correlations in small systems of deuteron-gold collisions. The former is related to the hydrodynamic transport properties of the quark-gluon plasma created in gold-gold collisions. The latter pertains to the question whether hydrodynamics is applicable to small systems, such as deuteron-gold collisions, and whether the quark-gluon plasma can be formed in those small-system collisions. The work presented in this thesis was conducted with the STAR experiment at the Relativistic Heavy Ion Collider at Brookhaven National Laboratory, where the center-of-mass energy of both collision systems was a factor of 100 larger than the rest mass of the colliding nuclei. The results contained in this thesis are highly relevant to our quest for deeper understanding of quantum chromodynamics. The results obtained challenge the interpretation of previous works from several other experiments on small systems, and provoke a fresh look at the physics of hydrodynamics and particle correlations pertinent to high energy nuclear collisions.
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