A model study of the deconfining phase transition

Velytsky, Alexander. Berg, Bernd A.

January 2004

Thesis (Ph. D.)--Florida State University, 2004. / Advisor: Dr. Bernd A. Berg, Florida State University, College of Arts and Sciences, Dept. of Physics. Title and description from dissertation home page (viewed June 16, 2004). Includes bibliographical references.

Measurement of polarization observables in the electro-excitation of the proton to its first excited state

Roché, Rikki E. Sarty, Adam J.

January 2003

Thesis (Ph. D.)--Florida State University, 2003. / Advisor: Dr. Adam J. Sarty, Florida State University, College of Arts and Sciences, Dept of Physics. Title and description from dissertation home page (viewed Apr. 08, 2004). Includes bibliographical references.

Measurement of the Double Helicity Asymmetry in Inclusive π0 Production in Polarized Proton-Proton Collision at Center of Mass Energy of 510 GeV.

Guragain, Hari

17 December 2015

One of the biggest quests in nuclear and particle physics in the last three decades is to unravel the spin structure of hadrons like protons and neutrons. Spin not only plays a central role in the strong force connecting the elementary constituents of matter, but is also responsible for many of its fundamental properties including the magnetic moment which defines the magnetic properties, the different phases in low temperature physics, and the stability of the universe in general. The origin of the spin of particles like protons and neutrons, which make up to 99.9% of the visible universe, has been the focus of experimental and theoretical efforts. Experiments at European Muon Collaboration (EMC) found that our knowledge of how the spin of the nucleon is derived from its elementary constituents is naive, and our interpretations are not valid. This was termed the spin crisis, an outstanding puzzle for more than three decades and is still not solved. Deciphering the spin puzzle requires knowing the spin of elementary constituents of these particles, quarks and gluons. One of the major objectives of the Relativistic Heavy Ion Collider (RHIC) spin program at Brookhaven National Laboratory is the measurement of the gluon helicity contribution to the proton spin via measuring the double helicity asymmetry (ALL) in various channels. In Pioneering High Energy Nuclear Interaction eXperiment (PHENIX) we measure ALL in π0 meson production. The π0 meson is reconstructed through its di-photon decay channel. The photons are detected by the PHENIX Electromagnetic Calorimeter, which consists of lead glass and lead scintillator detectors and covers a rapidity of |η|< 0.35 and azimuthal angle of 180°. In this dissertation, the results of ALLin π0 production from the data collected in 2013 at center of mass energy = 510 GeV are presented. In 2013, the total integrated luminosity is 150 pb-1 which is almost ten times the total luminosity recorded in 2009 at center of mass energy = 200 GeV. Due to the increase in the center of mass energy and integrated luminosity, these measurements cover the Bjorken x range down to ~0.01. A non-zero ALL result is observed that is consistent with positive gluon polarization in the probed kinematics.

RHIC

PHENIX

Electromagnetic Calorimeter

double helicity asymmetry

gluon polarization

A search for the H0 dibaryon

Jensen, Paul Thomas

21 March 2011

Not available / text

Heavy ion collisions

Quark-gluon plasma

Baryons

Quantum chromodynamics

CHARM and Strangeness in Quark-Gluon Plasma Hadronization

Petran, Michal

January 2013

This dissertation presents a theoretical study of soft hadron production in relativistic heavy-ion collisions. The aim is to explore the principles governing the hadronization of the expanding quark-gluon plasma (QGP) fireball, and to understand its properties. Strange hadron production and strangeness abundance in the QGP help us to look before the instant of hadronization. Consideration of entropy and charm production further enhances the reach back in time to the first instances of the heavy ion collision. Much of the ongoing effort is to demonstrate the validity of a QGP hadronization model which describes the particle production data accurately and thus allows us to carry out the above research program. We perform a centrality dependent study of multistrange hadrons from Au-Au collisions at √SNN = 62.4 GeV, data obtained at the Relativistic Heavy Ion Collider (RHIC). We show that the statistical hadronization model (SHM) well describes particle production. For all centralities, the particle production conditions are compatible with the earlier proposed critical hadronization pressure suggesting a set of universal hadronization conditions of QGP. Heavy-ion collisions at the Large Hadron Collider (LHC) present a new challenge for SHM in describing particle production at TeV energy scales. The chemical non-equilibrium model gives a good description of the hadron production in Pb-Pb collisions at √SNN = 2.76 TeV consistently as a function of centrality. Moreover, the model parameters, such as chemical freeze-out temperature, assume expected values suggested by results from previous studies at lower energies. The quark-gluon plasma fireball hadronizes at the same universal hadronization conditions, that is a common critical pressure, entropy and energy density. At LHC energies, a significant amount of charm is expected to be produced. It is therefore crucial to incorporate charm into the present description of particle production. We present a new tool, an upgraded SHARE with CHARM program, that quantifies the effect of charm on the yield of lighter hadrons and physical properties of the hadronizing fireball. In addition to light flavors (u,d,s), SHARE with CHARM describes charm hadron production and decays of charm hadrons. According to present experimental results, charm decays mainly affect the yields of multistrange particles. This dissertation begins with an introduction to the particle production in heavy-ion collisions and SHM framework, followed by a summary of results that are either published or submitted to peer-reviewed journals and others which are published as conference proceedings. Reprints of the publications are attached to the dissertation as appendices. Each appendix is prefaced with a short summary of presented results, and my contribution to these works is described.

quark-gluon plasma

SHARE

statistical hadronization

strangeness

Physics

charm

Weak decays of charmed particles

Turcotte, Marc Gilles.

January 1986

No description available.

Particles (Nuclear physics) -- Charm

Quarks

Quantum theory

Quark-gluon interactions

Baryon stopping and quark gluon plasma production at RHIC and LHC

Ljachov, Konstantin.

Unknown Date

Frankfurt (Main), University, Diss., 2008.

Detailed analysis of two particle correlations in central pb-au collisions at 158 gev per nucleon

Antończyk, Dariusz.

Unknown Date

Techn. University, Diss., 2006--Darmstadt.

Configuration mixing of quark states in nucleons and other baryons in the MIT bag model /

Hazelton, William Donald.

January 1997

Thesis (Ph. D.)--University of Washington, 1997. / Vita. Includes bibliographical references (p. [100]-109).

Collective phenomena in the non-equilibrium quark-gluon plasma

Schenke, Björn Peter.

Unknown Date

Frankfurt (Main), University, Diss., 2008.