rhic program and machine performances hugo pereira da costa, cea saclay, phenix collaboration, 3...
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RHIC program and machine performances
Hugo Pereira Da Costa, CEA Saclay, PHENIX Collaboration, 3 Juillet 2006
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Outline
• the RHIC collider
• the experiments
• selected results
• collider and detector upgrades
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The RHIC collider
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BNL facility
3.83 km
Capable of colliding any nuclear species
Energy:
500 GeV for p-p
200 GeV for Au-Au(per N-N collision)
protons: Linac Booster AGS RHIC
ions: Tandems Booster AGS RHIC
STAR
PHENIX
PHOBOS BRAHMS
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Physics program
Study the formation of a quark gluon plasma in high energy high density nuclear matter
p+p collisions for reference
light ions to study cold nuclear matter effects
heavy ions to form a quark gluon plasma
use as many different probes as possible because of a lack of decisive proof for a phase transition
Polarized p+p program :
study the polarized structure functions of the nucleon, notably DeltaG/G
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Collision species and energy
Run Year Species Energy (GeV)
01 2000 Au+Au 130
02 2001/2002 Au+Au
p+p
200
200
03 2002/2003 d+Au
p+p
200
200
04 2003/2004 Au+Au
Au+Au
200
62
05 2004/2005 Cu+Cu
Cu+Cu
Cu+Cu
p+p
200
62
22.5
200
06 2006 p+p
p+p
p+p
200
62
500
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Integrated luminosity (Au+Au)
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Integrated luminosity (p+p)
100 x 100 Gev pp RUN05-06, PHENIX Integrated Luminosity (final delivered)
0
5
10
15
20
25
30
35
40
45
0 7 14 21 28 35 42 49 56 63 70 77 84 91
PHENIX Days in Physics mode
Inte
gra
ted
Lu
min
osi
ty (
pb
-1)
RUN05
RUN06
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The experiments
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PHOBOS
•Multiplicity of charged particles for | < 5.4 •Particles down to low pt (~100MeV) near y = 0•Particle ratios, spectra, and correlations
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BRAHMS
Measures momentum, energy of charged hadrons at forward rapidity (up to =3.2). Low x physics, saturation physics.
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STAR
Hadrons, electrons and jets at mid rapidity over =2
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PHENIX
Central armhadrons; photons; electronsp>0.2 GeV/c|y|<0.35=
Muon armsmuons; stopped hadronsp>2 GeV/c|y| E [1.2,2.4]=2
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Selected results
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Particle production
G. Roland (QM’05)
PHOBOS
PHOBOS200 GeV Au+Au
D. Hofman (Moriond ‘04)
Total charged particle production
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Particle ratio
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Elliptic flow (1)
Study the distributions of the particles with respect to the reaction plane.
Use v2, the second coefficient of the Fourrier transform to study the anisotropy related to the pressure gradient in the overlapping area.
Positive v2 means that the particles are emitted preferentially in the reaction plan as opposed to perpendicular to it.
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Elliptic flow (2)
M. Oldenburg (QM’05)
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Elliptic flow (3)
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Jet Quenching (1)
No direct Jet reconstruction at RHIC.
Study back to back jets by looking at correlations between particles.
Use a trigger particle of high enough pt;
Look at between partner and trigger particle
• ~ 0 same jet
• ~ back to back jet
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Jet Quenching (2)
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Nuclear modification factor (1)
yield in A+A
Ncol. yield in p+pRAA =
Ncol = number of equivalent p+p collisions
Npart = number of participant nucleons
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Nuclear modification factor (2)High Pt particle suppression
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Heavy quarks (1) open charm
Measure open charm via non-photonic single electron spectra
open charm RAA open charm v2
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Heavy quarks (2) J/Psi in p+p and d+Au
Measure charmonium via di-lepton pairs
p+p d+Au
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Heavy quarks (3) J/Psi in Cu+Cu and Au+Au
forward rapidity mid rapidity
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Detector upgrades and future RHIC program
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Future physics program
Heavy ionHigh pT phenomena (identified particle, pT>20 GeV/c and -jet) Lepton pair continuum (low masses to Drell-Yan)Heavy flavor production (c and b physics)Charmonium spectroscopy (J/, ’ and )
Nucleon structure in nuclei Gluon saturation and the color glass condensate at low x
Spin structure of the nucleon (p+p) Gluon spin structure (G/G) with heavy flavor and -jet correlationsQuark spin structure (q/q) with W-productionTransversity
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RHIC II luminosity upgrade
Species units Obtained RHIC II
p+p pb-1 ~6 33
d+Au nb-1 4.5 62
Cu+Cu nb-1 2.4 25
Au+Au mb-1 160 2500T. Frawley (QWG 06)
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STAR upgrades
•Full acceptance time of flight barrel
•Micro vertex detector
•TPC electronic upgrade (faster, higher rate capability)
•Forward tracking upgrade
•Compact fast TPC using GEMS
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PHENIX upgrades
• Central and forwardSilicon Vertex detector
• Hadron blind detector
• Nose cone calorimeter
• Muon trigger upgrade(resistive plate chambers)
• Reaction plane detector
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Conclusion
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Conclusion (1)Heavy flavors at RHIC II and LHC
RHIC II LHC
Heavy flavor yields/year similar
QGP temperature 2Tc 4Tc
QGP lifetime ~7fm/c ~17fm/c
Ncc/collision 10 115
Nbb/collision 0.05 5
J/psi mechanism suppression + coalescence coalescence
Upsilon mechanism suppression suppression + coalescence
Open b easier high cross section
Open c harder high feed down from b
T. Frawley (QWG 06)
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Conclusion (2)http://en.wikipedia.org/wiki/Relativistic_Heavy_Ion_Collider
Fears among the publicBefore RHIC started operation, there were fears among the public that the extremely high energy could produce one of the following catastrophic scenarios:
• RHIC creates a black hole • RHIC creates a transition into a different quantum mechanical vacuum • RHIC creates strange matter that is more stable than ordinary matter
The main issue in the controversy was the demand by critics for physicists to show an exactly zero probability for such a catastrophic scenario, which physics cannot provide. However, by following the same argument of the critics, and using the same experimental and astrophysical constraints, physicists are also unable to demonstrate a zero probability, but just an upper limit for the likelihood, that tomorrow Earth will be struck with a "doomsday" cosmic ray, resulting in the same destructive scenarios. According to this argument of upper limits, RHIC would still modify the chance for the Earth's survival by an extremely marginal amount.
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Additional slides
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PHENIX upgrades
• Aerogel and time-of-flightprovide complete p/K/pi separation for momenta up to ~10 GeV/c
• Hadron-blind detector detects electrons from near the vertex
• Reaction plane detectormeasures reaction plane with resolution better by factor 2minimum bias trigger for low energy runs
• Vertex detector detects displaced vertices from the decay of charm or bottom mesons
• Forward calorimeter provides photon+jet studies over a wide kinematic range
• Resistive plate chamberstriggers on rare probes (J/psi, upsilon, W) at high luminosity
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Bibliography
http://www.phenix.bnl.gov/phenix/WWW/publish/dave/colloquia/BNL_colloquium.ppt
http://qm2005.kfki.hu/Talks/Globe/aug9/1100//IT_QM05_Summary.ppt
http://www.phenix.bnl.gov/phenix/WWW/publish/zajc/sp/presentations/RBUP05
http://www-rnc.lbl.gov/qm2004/talks/parallel/Tuesday04/ADrees_PPTWin.ppt
https://www.phenix.bnl.gov/phenix/WWW/p/draft/frawley/QWG_phenix_quarkonium_june30_2006.pdf
http://en.wikipedia.org/wiki/Relativistic_Heavy_Ion_Collider
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Elliptic flow (1)
M. Oldenburg (QM’05)
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Jet quenching (3)
J. Jia
Lower threshold for trigger and partner. The way side jet is here but its shape is affected by the medium.