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Quark-Gluon Plasma

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The total energy density for =0 (same amount of quarks as anti-quarks) ... Only 10-15 percent difference between interaction included and interaction excluded ... – PowerPoint PPT presentation

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Title: Quark-Gluon Plasma


1
Quark-Gluon Plasma
  • Sijbo-Jan Holtman

2
Overview
  • Introduction
  • Phases of nuclear matter
  • Thermodynamics
  • Experiments
  • Conclusion

3
Introduction
  • Research of quark-gluon plasma important to
    understand early universe and center of neutron
    stars

4
The Phases of Nuclear matter
  • Normal nuclei density ?0 , temperature T0
  • Gas peripheral collision between gold nuclei

5
Phases of Nuclear matter
Hadronic matter
  • Central collision
  • N N ? N , new degree of freedom
  • dynamical equilibrium between pN and ?
  • Boltzmann distribution
    dN / dE cst e -E / kT (E is kinetic
    energy)
  • kTlt 150 MeV

6
Phases of nuclear matter
  • Central collision between gold nuclei

7
Phases of nuclear matter
  • Quark-gluon plasma (QGP) or Quark soup

Hadron gas
  • ?0 (6 fm3) -1 volume of
    nucleon is 10 / ?0
  • For T gt 200 MeV enough energy for nucleon-nucleon
    interaction to increase collision frequency very
    much
  • The disintegration of nucleons and pions into
    quarks and gluons

QGP
8
Phases of nuclear matter
  • Phase diagram

Big Bang
Normal nuclear matter
Neutron stars
9
Thermodynamics
  • Derivation of the equation of state
  • Gluons, u and d quarks massless
  • all interactions neglected
  • degrees of freedom Gluons Ng
    2(spin) 8(colour) 16
    Quarks Nq 2(spin) 3(colour) 2(flavour)
    12
  • energy density in each degree of freedom

10
Thermodynamics
Gluons
eg (dp)p(eßp-1) -1 p2T4 / 30
Quarks and anti-quarks
  • eq (dp) p (e(ßp-µ)1) -1 x (ßp-µ)
    T4 /2p2 dx (xßµ)3 (e x1) -1
  • eq (dp) p (e(ßpµ)1) -1 x (ßpµ)
    T4 /2p2 dx (x-ßµ)3 (e x1) -1
  • eq eq 7p4 T4/120 µ2 T4/4 µ4/8 p2

11
Thermodynamics
  • The total energy density for µ0 (same amount
    of quarks as anti-quarks)
  • e 16 eg 12 (eq eq) (T/160 MeV)4
    GeV/fm3
  • Compare with
  • enuc 125 MeV/fm3 e of nuclear matter
  • eN300-500 MeV/fm3 e inside nucleon

12
Thermodynamics
  • Determining a physically realistic µ with the
    baryonic density
  • nb 1/3 12 (nq nq) nq (dp)
    (e(ßp-µ)1) -1
  • nb 2 µT2/3 2µ3/3p2
  • Consequences
  • High temperature µ T-2/3
  • nb 4/3 de/dµ (also valid with interactions)

13
Thermodynamics
  • In the same way
  • P1/3 e s 1/3 de/dT
  • Range of stability of QGP
  • P can balance B the external vacuum pressure
  • B p2Tc4(37/90-11as/9p)(1-2as/p)(xc21/2 xc4)
  • µ cxcpTc
  • e (T/160 MeV)4 GeV/fm3
  • ec ½-2 GeV/fm3

14
Thermodynamics
  • Phase diagram according to the calculation
  • Only 10-15 percent difference between
    interaction included and interaction excluded

15
Experiments
  • J/? suppression because colour screening hinders
    the quarks from binding
  • Strangeness and charm enhancement

16
Experiments
  • Jet quenching
  • Hard scatterings (HS) produce jets of particles
  • In a colour deconfined medium the partons
    strongly interact and loose energy by gluon
    radiation
  • HS near the surface can give a jet in one
    direction, while the other side is quenched

17
Experiments
  • Search for QGP done at Relativistic Heavy Ion
    Collider (RHIC) on Long Island, New York

18
Experiments
  • PHENIX Pionering High Energy Nuclear Interaction
    eXperiment
  • AuAu till 100 GeV, dAu and pp till 250 GeV

19
Experiments
  • Aud similar to peripheral AuAu

20
Experiments
  • Aud similar to peripheral AuAu
  • Away side strongly suppressed in AuAu

21
Experiments
  • Central collision simulation

22
Conclusion
  • QGP not yet experimentally verified
  • Problems remain T0, high ? (neutron stars)
    and high T, low ? experimentally difficult to
    realize
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