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Beam Conditions

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... gives reduction by 1/20 x 1/500 = 1/10000 ( to reach 1030 cm-2s-1 ) ... First estimates give up to 200 Hz/cm2 from hadron halo and 15 Hz/cm2 from muons ! ... – PowerPoint PPT presentation

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Title: Beam Conditions


1
Beam Conditions
Andreas Morsch ALICE CERN/EP-AIP
2
Outline
  • AA and p-A Collisions
  • Maximum Luminosity
  • Collision Systems
  • pp
  • Luminosity reduction
  • Vacuum and Beam Halo

3
Interaction with Machine
  • Baseline Documents finished 2001
  • D. Brandt "Review of the LHC Ion Program", LHC
    Project Report 450
  • A. Morsch "ALICE Luminosity and Beam
    Requirements", ALICE-INT-2001-10
  • Link-Person D. Brandt (SL-AP)
  • Committees
  • LEMIC (permanent)
  • LCC (invited for special topics)
  • Identify critical issues and actions in
    collaboration with LHC/SL

4
ALICE Global Running Scenario
  • First 5-6 years
  • 2-3y Pb-Pb (highest energy density)
  • 2y Ar-Ar (vary energy density)
  • 1y d(a)-Pb (nucl. str. func., comparison)
  • pp normal runs at 14 TeV centre of mass energy
  • Later options depending on the physics outcome of
    the first years
  • dedicated pp or pp-like (aa) collisions at 5.5
    TeV
  • possibly another A-A system out of the LHC
    proposed menu of possible candidates (O-O, Kr-Kr,
    Sn-Sn)
  • maybe another d-A system (d-Ar ?)
  • low energy Pb-Pb run

5
Critical Issues Pb-Pb (1)
  • LHC Intensity Limit
  • Pb losses due to electromagnetic processes (500
    barn !)
  • Quench limit close to nominal luminosity (1027
    cm-2s-1)
  • Concern that actual limit could be ltlt 1027
    cm-2s-1 (official value 5 1026 cm-2s-1)
  • SPS bunch intensity limit
  • Tune shift and longitudinal intra-beam scattering
  • New RF scheme proposed (split bunches)
  • Limit close to nominal luminosity

6
Critical Issues Pb-Pb (1)
  • Luminosity Life-Time limited by
  • Intra Beam Scattering
  • Electromagnetic Cross-Section
  • 1 Exp. 6.7 h _at_10 h ltLgt 0.44 L0
  • 2 Exp. 3.7 h ltLgt 0.34 L0
  • 3 Exp. 2.7 h ltLgt 0.28 L0

7
1 Experiment
8
2 Experiments
9
3 Experiments
10
Luminosity Lifetime
  • Lifetime ? Intensity
  • Increase intensity
  • Increase b to obtain nominal luminosity
  • Or even better decrease b during run and keep
    luminosity constant.
  • However, intensity limited by SPS !
  • Concern that average luminosity will be ltlt 0.5 L0

11
Beta-Tuning Scheme
Luminosity lifetime problem can be solved using a
2 times higher beam intensity and start run with
a b of 2 m (see next slide ) !
12
Beta-Tuning Scheme
13
Intermediate Mass Ions
  • At least one intermediate mass collision systems
    during the first 5 years (Ar-Ar)
  • Reason Change energy density
  • Other options proposed by machine (O-O, Kr-Kr and
    Sn-Sn) also interesting and possibility to use
    them should be left open
  • Two operation luminosities
  • low luminosity matching PbPb rate
  • high luminosity maximize dimuon rate
  • Ar-Ar
  • low 2.8 1027 cm-2s-1 high 1029 cm-2s-1
  • OO
  • low 5.5 1027 cm-2s-1 high 2 1029 cm-2s-1

14
Critical Issues Intermediate Mass Ions (2)
  • SPS intensity limit
  • long. intra beam scattering and tune shift
  • No official numbers yet, but in-officially
  • O Ö
  • Ar 60 of requested luminosity (high
    luminosity option)

15
Critical Issues pA (1)
  • For rare signals
  • dA or aA preferred
  • Deuteron source
  • Same source for protons and deuterons
  • Challenge time to switch between p and d
  • a seems to be better option
  • Under investigation

16
Critical Issues pA (2)
  • Required luminosity reached through asymmetric
    beams
  • high intensity p(d), low-intensity ion beam
  • check possible tune-shift problems (seems to be
    ok)

17
Critical Issues pp
  • Luminosity Reduction from 1034cm-2s-1 to
  • 3 1030 cm-2s-1 (rare signals, 20 overlapping
    events)
  • 1 1029 cm-2s-1 (minimum bias)
  • Two possibilities
  • De-focussing L µ1/b
  • Beam separation L µ exp(-d2/4 s2)
  • Nominal ALICE operation
  • b 10 m / 5.0 s separation gives reduction by
    1/20 x 1/500 1/10000 ( to reach 1030
    cm-2s-1 )
  • LHC early operation 20 of nominal luminosity
  • still ca. factor 1000 reduction needed for 3 1033
    cm-2s-1 operation

18
Luminosity Reduction
  • ALICE expects best conditions for pp running with
    de-focussed beams and no displacement
  • Be prepared for some weeks of very low intensity
    LHC running (lt 1033 cm-2 s-1)
  • Study maximum b as a function of beam intensity
    and beam emittance.
  • Inner triplet can yield 0.5 m lt b lt 250 m (no
    crossing)
  • Problem beam crossing and beam separation.
  • Request sent to SL/AP

19
Critical Issues ppBeam Halo
  • ALICE runs at reduced luminosity but full beam
    intensity
  • Halo/collision by 4 orders of magnitudes worse
    than for dedicated high-luminosity experiments
  • Recent dynamic gas pressure estimates are up to
    factor 100 higher than previous calculations.
    (LHC Project Note 274)

20
Dynamic Gas Pressure Estimates
after some weeks of running
21
Dynamic Gas Pressure Estimates
first weeks of running
22
Halo Issues for ALICE
  • Muon trigger
  • First estimates give up to 200 Hz/cm2 from hadron
    halo and 15 Hz/cm2 from muons !!!!
  • Impact on RPC aging at such rates not yet
    evaluated.
  • TPC/ITS
  • Pile up
  • To be studied

23
Beam Halo Calculation
  • LHC Project Note 273

LHC Project Note 273
Origin of muon halo
24
Main Concerns
  • PbPb (integrated) Luminosity
  • Vacuum gas pressure / beam halo in pp
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