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Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL ALICE experiment ● Physics motivation ● Experimental conditions ● Detector.

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Presentation on theme: "Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL ALICE experiment ● Physics motivation ● Experimental conditions ● Detector."— Presentation transcript:

1 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL ALICE experiment ● Physics motivation ● Experimental conditions ● Detector status ● Physics performance

2 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL Deconfinement and screening Deconfinement ~ screening of the static potential between heavy quarks T = 0: heavy quark bound states described by confining potential V qq (r) = - 4a / 3r + s r a = g 2 (r) / 4 p T > Tc: no bound state in a Debye screened potential: V qq (r,T) ~ - a / r exp (-mr) a = g 2 (T) / 4 p V qq (r,T) --> ∞ confinement V qq (r,T) < ∞ no confinement

3 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL Heavy quark free energy - heavy quark potential (Lattice QCD) Singlet free energy F 1 (r,T) F.Karsch QM'04 Singlet energy “potential” energy 2 V 1 (r,T)= - T 2 ∂F 1 (r,T)/T ∂T - potential is “deeper”: V(r,T) > F(r,T) - potential “barrier” high above Tc - “potential” screened at short distances At what temperature do heavy quark states really disappear ?

4 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL Quarkonia ● Quarkonia rates sensitive to nuclear absorption and secondary scattering, parton distributions, nuclear gluon shadowing ● Expect quarkonia in AA collisions reduced relative to pp or pA ● BUT copiously produced uncorrelated qq-pairs may form final state quarkonium -> Is there quarkonia enhancement at LHC ? ● Reference: total charm/beauty cross section ● Charmonium ground state J/y, hc (F.Karsch QM'04): – Still exist at 1.5 T c, gradually disappear for T > 1.5 T c, are gone at 3 T c – Radial excitations disappear at T c

5 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL Parton energy loss ● Parton energy loss in medium  a s C R q L 2 ● C R Casimir coupling factor, 4/3 for quarks, 3 for gluons ● q medium transport coefficient  gluon density and momenta ● L pathlength in medium ● Reduction of single inclusive high p t particles ● parton specific (stronger for gluons than quarks) ● flavour specific (stronger for light quarks) ● Identify hadrons (p,K,p,L) + partons (charm,beauty) at high p t ● Suppression of mini-jets, same-side/away-side correlations ● Change of fragmentation function for hard jets (p t >> 10 GeV/c)

6 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL Study parton energy loss Compare p t -distributions of leading particles in pp, pA and AA collisions Nuclear modification factor: Dead cone effect for heavy quarks with momenta < 20-30 GeV/c (v<<c) - gluon radiation suppressed at angles < m Q /E Q - Dokshitzer and Kharzeev: dead cone implies lower energy loss  D meson quenching reduced  Ratio D/hadrons (D/p 0 ) enhanced and sensitive to medium properties R AA (p t ) = ____ X ________ 1 dN AA /dp t N coll dN pp /dp t

7 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL Heavy Ions at LHC e (LHC) > e (RHIC) > e (SPS) V(LHC) > V(RHIC) > V(SPS) t (LHC) > t( RHIC) > t (SPS) - heavy ion experimental programs at SPS, RHIC, LHC

8 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL LHC new aspects I -- probe initial partonic state in a novel Bjorken-x range (10 -3 - 10 -5 ) --> nuclear shadowing --> high density saturated gluon distribution (CGC) -- Larger saturation scale (Q s =0.2 A 1/6 √s -d = 2.7 GeV) particle production dominated by saturation region Y

9 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL LHC new aspects II -- Hard processes contribute significantly to the total AA cross section (s hard /s tot = 98 %) --> bulk properties dominated by hard processes --> very hard probes are abundantly produced -- Weakly interacting probes become accessible (g, Z 0, W +- ) √

10 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL Which multiplicity at LHC ? Former estimate: dN/dy = 2000 – 8000, extrapolation from RHIC data possible uncertainties - shadowing/saturation (decrease) - jet quenching (increase) - A-scaling (important soft vs. hard changes with energy) ALICE optimized for dN ch /dy = 4000, checked up to 8000 (K.Kajantie, K.Eskola) -> dN ch /dh ~ 2500

11 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL ALICE @ LHC PbPb collisions at 1150 TeV = 0.18 mJ

12 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL Experimental conditions @LHC ● April 2007 start pp commissioning ● Initial Heavy-Ion programme at LHC – Initial few years ( 1HI 'year' = 10 6 effective s) ● 2-3 years Pb-Pb L ~ 10 27 cm -2 s -1 ● 1 year p-Pb 'like' (p,d or a) L ~10 29 cm -2 s -1 ● 1 year light ions (eg Ar-Ar) L ~ few 10 27 to 10 29 cm -2 s - 1 ● reg pp run at s = 14 TeV L ~ 10 29 and < 3x10 30 cm -2 s -1 ● Heavy Ion running part of LHC initial programme, early pilot run expected by end of 2007

13 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL Luminosity limitations LHC Intensity Limit --> Pb losses due to electromagn. processes (500 barn!) Limit luminosity life-time: 1 exp6.7 h@10h =0.44L 0 2 exp 3.7 h =0.34L 0 3 exp2.7 h =0.28L 0 SPS bunch intensity limit close to nominal luminosity (limits possible schemes to improve ratio /L) L 0 Max = 1.0 * 10 27 for Pb-Pb 0.6 * 10 29 for Ar-Ar 2.0 * 10 29 for O-O

14 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL Energy densities for different ions central minimum bias

15 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL ALICE physics goals Global observables: Degrees of freedom as function T: Early state signal collective effects: Parton energy loss in deconfined state: Study of deconfinement: Study of chiral symmetry restoration: Fluctuation signals – critical behaviour: Geometry of emitting source: Study of pp collisions in energy domain -> Large acceptance -> wide momentum coverage -> good secondary vertex reconstr - multiplicities, h-distributions - hadron ratios and spectra, dileptons, direct photons - elliptic flow - jet quenching, high pt spectra, open charm & beauty - charmonium and bottomonium spectroscopy - neutral to charged ratio, resonance decays - event by event particle composition, spectra - HBT, impact parameter by zero degree energy flow -> good tracking capabilities -> PID of hadrons and leptons -> Photon detection Variety of experimental techniques

16 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL The ALICE experiment ITS TPC TRD TOF PHOS HMPID MUON SPEC. PMD FMD

17 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL PID in ALICE 0 1 2 3 4 5 p (GeV/c) 1 10 100 p (GeV/c) TRD e /  PHOS  /   TPC + ITS (dE/dx)  /K K/p e /  HMPID (RICH) TOF MUON SPECTROMETER ALICE uses almost all known methods

18 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL ALICE acceptance 0 1 -2 2 0 1 23 Pt PHOS HMPID TRD TOF TPC ITS tracking ITS multiplicity 2020 100  Muon arm 2.4 < h < 4 PMD 2.3 < h < 3.5 FMD -5.4 < h < -1.6 1.6 < h < 3

19 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL Inner tracking system ITS SDD carbon ladders vertex reconstruction (primary and secondary) PID via dE/dx -0.9 <  < 0.9 multiplicity and  reconstruction -2 <  < 2 6 layers of Si detectors pixels, drift, strips

20 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL ITS secondary vertices Position Mass Momentum Efficiency Position Mass Momentum Efficiency K 0 s 200-300  m 6-8 MeV 1.5-1.8% 21-25%  ~ 500 mm  3-4 MeV 1.3% 15% resolution resolution resolution resolution resolution resolution For the moment restricted inside B = 2 T the beam pipe R < 2.5cm Loss due to vertexing itself only  1% K 0 s              p   in pp event

21 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL Time Projection Chamber 25 µm aluminized Mylar on Al frame Central Electrode Prototype for tracking and PID via dE/dx - 0.9 <  < 0.9 ~ 3 m diameter Field Cage Inner Vessel drift gas 90% Ne - 10%CO 2 gas volume 88 m 3

22 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL Tracking TPC, B = 0.2 T TPC 2.4 1.2 8.55.8 TPC+ITS 1.6 0.7 3.4 1.4 Magnetic field (T) 0.2 0.5 0.2 0.5 p t > 5 GeV/c  p/p (%) D p/p (%) 10 30 50 Resolution 9% at 100 GeV/c

23 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL Transition radiation detector for e PID, p>1 GeV/c for e and high pt trigger, p>3 GeV/c -0.9 <  < 0.9 largest chamber: 1200 x 1600 mm Full scale prototype Supermodule in space frame

24 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL TRD signals: pions, electrons Pulse height distribution ,e distribution ,e  -efficiency

25 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL Time-Of-Flight DOUBLE STACK OF 0.5 mm GLASS Edge of active area cathode pick up pad anode pick up pad Resistive layer (cathode) Resistive layer (anode) 5 gaps 05001000-500 -1000 1200 1000 800 600 400 200 0 STRIP 10 H.V. +- 6 kV Time with respect to timing scintillators [ps]  = 53 ps with 30 ps jitter of timing scint, = 44 ps Entries/50 ps PID for , K, p , K for p < 2 GeV/c p for p < 4 GeV/c -0.9 <  < 0.9 Time spectrum 2 full size TOF modules under test Resistive plate chambers

26 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL High Momentum Particle Identification The HMPID module in STAR STAR data pions kaons protons p > 1 GeV 7 modules, each ~1.5 x 1.5 m 2

27 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL Photon spectrometer For photons, neutral mesons and  - jet tagging - 0.5 <  < 0.5 PHOS 256-Channel Prototype The strip unit The prototype with the CPV-detector mounted on top of it. Apatity PWO crystals Ukranian crystals Excellent energy resolution: stochastic 2.7%/E 1/2 noise 2.5%/E constant 1.3% PbWO 4 crystals

28 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL Forward Detectors PMD T0 R 2.6 < |  | < 3.3; T 0 for the TOF (~ 50 ps time res.) Two arrays of 12 quartz counters. Also backup to V0 FMD Measure Multiplicity and  distribution. Over 1.6 1) V0 1.6 < |  | < 3.9 Interaction trigger, cen- trality trigger and beam-gas rejection. Two arrays of 72 scintillator tiles fiber readout T0 L

29 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL Muon spectrometer pp shield Front Absorber Iron Wall Pipe Shield Muon Dipole Station1&2 Station 3&4&5 Station 6&7

30 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL Muon absorber ● Front Absorber (2.5 < m < 4, I ~10): Reducing forward flux of charged particles (100). Decreasing the hadronic muon background (limit of 90 cm to IP due to the central barrel). Minimizing multiple scattering. ● Beam shield (4 < m < 7): Reducing low energy background from the pipe ● Iron wall (2.5 < m  < 4, I ~7.2): Reducing low energy background in the trigger chambers which are less constrained by multiple scattering.

31 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL Muon magnet ● 820 tons ● Warm dipole (~4MW) ● B=0.7 T, ∫Bdl ~ 3 Tm BxBx Bending Plane yz Non-Bending Plane xy Point2 @ LHC

32 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL Muon trigger system ● Fast decision (<  ms) for p t cut: Low p t (~1 GeV/c) for J/Y, High p t (~2 GeV/c) for Y's ● Reducing trigger rates below 1kHz: PbPb @ LHC ~ 8 kHz, CaCa @ LHC ~30 kHz ● Compromise between quarkonia efficiency and background rejection: Hadronic muons, soft-background, open heavy flavor decay.

33 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL CPC for stations 3,4,5 ● Lengths from 80 cm to 2.4 m ● 140 CPC slats (19 types) ● Different densities 5x25 mm 2 to 5x100 mm 2.

34 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL Muon signal J/Y  m + m - Full PbPb LHC run statistics ~5% of full statistic PbPb LHC run

35 Rainer Schicker, Univ. Heidelberg FOUR SEAS CONFERENCE, 5-10 sept 2004, ISTANBUL The ALICE collaboration 0 200 400 600 800 1000 1200 19901992199419961998200020022004 ALICE Collaboration statistics LoI MoU TP TRD 937 members 77 Institutions Discussion with China,Japan US After more than 10 years of life, still healthy and growing !

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