Papers da área


Artigos sobre Heavy-Ions e hidrodinâmica:

 

  • “Early collective expansion: Relativistic hydrodynamics and the transport properties of QCD matter”,
    U. Heintz, 2009,arXiv:0901.4355v1,
    54 páginas, nível Pós-Graduação, artigo longo porém completo, boa referência sobre aplicação de hydro em HIC e dos observáveis.

 

  • “Collective phenomena in non-central nuclear collisions”,
    Sergei A. Voloshin, Arthur M. Poskanzer, and Raimond Snellings, 2008, arXiv:0809.2949v2,
    56 páginas, nível Pós-Graduação, artigo longo e didático do que se sabia em 2008, escrito pelos fundadores da área de collective flow em HIC.

 

  • “Methods for analyzing anisotropic flow in relativistic nuclear collisions”,
    A. M. Poskanzer and S. A. Voloshin, 1998, Phys. Rev. C 58 1671,
    7 páginas, nível Pós-Graduação, um dos artigos originais propondo os observáveis de flow, apresenta as contas, é didático e claro.

 

  • Hydrodynamic modelling of Heavy-Ion Collisions”, 
    Chales Gale, Sangyong Jeon, 2013,
    nucl-th:1301.5893,
    27 páginas, nível Pós-Graduação, bom resumo, com resultados mais modernos.

Artigos sobre Strangeness em HIC:

 

  • “Strangeness Production in Quark-Gluon Plasma”, 
    Rafelski and Muller, 1982, Phys. Rev. Lett. 48 1066,
    4 páginas, nível graduação, um dos primeiros artigos a propor strangeness enhancement.
    Principal resultado: “
    Strangeness abundance should saturate in Quark Gluon Plasma with chemical equilibration, thus, strangeness enhancement should be an indicator for the formation of the plasma state in nuclear collisions.”

 

  • Strangeness in Relativistic Heavy Ion Collisions”,
    P. Koch, B. Muller and J. Rafelski, 1986, Phys. Rep. 142 167,
    96 páginas, nível Pós-Graduação.
    Principal resultado: General review that shows why strange particle production is a promising experimental signal in the search for the quark-gluon plasma. That, the abundant strangeness production is indicative of the presence of gluon excitations, a characteristic property of the deconfined QCD phase.

Artigos sobre QGP:

  • “The Hot QCD White Paper: Exploring the Phases of QCD at RHIC and the LHC”
    US Heavy-Ion Community, 2015, arXiv: 1502.02730,
    110 páginas, nível Pós.

 

  • “The Little Bang in the laboratory: Heavy Ions @ LHC with ALICE”,
    Paolo Giubellino (2014), paper,
    13 páginas, nível Divulgação.

 

  • The Quark-Gluon Plasma in Equilibrium
    Dirk H. Rischke (2008) arXiv: 0412013,
    66 páginas, nível Pós.

 

  • “Superdense Matter: Neutrons or Asymototically Free Quarks?”
    J.C.Collins and M.J. Perry, PRL 34 (1975) 1353,
    4 páginas, nível Pós.

 

  • “Phase Transitions in Quantum Chromodynamics”
    Hildegard Mayer-Ortmanns, arXiv: 9608098,
    96 páginas, nível Pós.

  • “Signatures of quark-gluon plasma formation in high energy heavy-ion collisions: a critical review”
    S A Bass, M Gyulassy, H Stocker and W Greiner, J. Phys. G: Nucl. Part. Phys. 25 (1999), hep-ph/9810281 , 68 páginas, nível Pós.
  • “New Forms of QCD Matter Discovered at RHIC”
    Miklos Gyulassy and Larry McLerran, nucl-th/0404013
  • Entropy Production in Collisions of Relativistic Heavy Ions – a signal for Quark-Gluon Plasma phase transition?
    M. Reiter, A. Dumitru, J. Brachmann, J.A. Maruhn, H. Stocker, W. Greiner, nucl-th/9806010
  • The Phase Diagram of QCD
    M. A. Stephanov, hep-ph/9806509
  • The quest for the quark–gluon plasma
    Peter Braun-Munzinger & Johanna Stachel, nature 448 (2007) 302.
  • Lattice Results on QCD Thermodynamics
    F. Karsch, NPA 698 (2002) 199c
  • The surprisingly transparent sQGP at LHC
    W.A. Horowitz, Miklos Gyulassy, NPA 872 (2011) 265-285
  • Heavy Ion Collisions at RHIC and at the LHC: Physics Challenges
    Urs Achim Wiedemann, proceedings of Panic
  • Lattice results with three quark flavours
    Steven Gottlieb, J. Phys. G: Nucl. Part. Phys. 30 (2004) S421–S430
  • Flux Tubes of Two- and Three-Quark System in Full QCD
    H. Ichie, V. Bornyakov, T. Streuer and G. Schierholz, hep-lat/0212036 (2002)
  • Quark-gluon plasma versus hadron gas. What one can learn from hadron abundances
    Kang S.Lee and M.J.Rhoades-Brown, PRC_37 (1988) 1452.

Artigos sobre QCD:

  • “QCD Made Simple”,
    Frank Wilczek, 2000, Physics Today, 7 páginas, nível divulgação.

 

  •  “QCD and Jets”,
    George Sterman, 2004, arXiv:0412013, 66 páginas, nível pós-graduação.

 

  • “The order of the quantum chromodynamics transition predicted by the standard model of particle physics”
    Y. Aoki, G. Endrodi, Z. Fodor, S.D. Katz, K.K. Szabo, arXiv:hep-lat/0611014
    7 páginas, nível Pós,
    In this paper, they argue that the fact that the QGP to hadron phase transition is not a first order transition have consequences to the cosmological scenarios of primordial nucleosynthesis.

Artigos sobre Glauber Model para HIC:

 

  • “Progress in the Glauber model at collider energies”
    D. d’Enterria, C. Loizides, (2020) arXiv:2011.14909.
    33 páginas.
  • “GLISSANDO 2: Glauber Initial-State Simulation ”
    M. Rybczynski,G. Stefanek, W. Broniowski, P. Bozek,(2013) arXiv:1310.5475
    29 páginas.

 

 

 

 


Outros Artigos Interessantes:

  • The Large Human Collider
    Nature 464, march 2010

 

  • Big Science and the Large Hadron Collider
    Gian Francesco Giudice, arXiv: 1106.2443

 

  • Freeze-out parameters: lattice meets experiment
    S. Borsanyi, Z. Fodor, S. D. Katz, S. Krieg, C. Ratti, K. K. Szabo, arXiv:1305.5161 [hep-lat].

 

  • A schematic model of Baryons and Mesons
    M. Gell-Mann, Physics Letters, vol. 8, num. 3, 214 (1964).

Livros sobre Heavy Ion Collisions:

  • “Introduction to High-Energy Heavy-Ion Collisions”, Wong (1994).
  • “Introduction to Relativistic Heavy Ion Physics”, Bartke (2009),  World Scientific.
  • “Introduction to Relativistic Heavy-Ion Collisions”, Csernai (1994/2008).
  • “Phenomenology of Ultra-Relativistic Heavy Ion Collisions”, Florkowski (2010).  World Scientific.
  • “The QCD vacuum, hadrons, and superdense matter“, Shuryak (2004), World Scientific.