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Visits to DELPHI/LHCb

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Warn the 'g rants de site' when arriving for opening the sas. Maximum 2 groups in the cavern ... 2001: dismantling. Ongoing: analysis and publications ... – PowerPoint PPT presentation

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Title: Visits to DELPHI/LHCb


1
Visits to DELPHI/LHCb
  • Ph.Charpentier

2
The travel and the arrival
Parking
Elevator
Posters
3
Surface visit
  • Split into parties of up to 10 visitors
  • If needed, could be 1 (e.g. 45 visitors for 4
    guides)
  • Warn the gérants de site when arriving for
    opening the sas
  • Maximum 2 groups in the cavern
  • Go to the lift with 2 groups immediately
  • The guides should use their access card, not the
    sas
  • Fill in the logbook next to the lift (name,
    number of visitors, time)
  • Make an introduction to the other groups showing
    them the surface posters (big-bang, LHC machine
    etc)
  • For safety reasons, dont let people into the
    construction hall
  • About 20 mn in the cavern, not more
  • One group could go down once the first group is
    back

4
A bit of history
  • Collaboration started in 1981
  • Founded by Ugo Amaldi (spokesperson until 1992)
  • Approved in 1983
  • 1982-1985 prototyping
  • 1986-1988 installation
  • 1989-2000 data taking
  • 2001 dismantling
  • Ongoing analysis and publications
  • LEP started on 14.07.1989, stopped on 2.11.2000
  • DELPHI is the only part of LEP detector remaining
    intact
  • In fact only the barrel is left, the endcaps have
    been dismounted
  • LHCb is the experiment on LHC at pit8
  • Under construction, hence not a visit area

5
DELPHI in numbers
  • Manpower 500 physicists 500 engineers /
    technicians
  • 3 years of construction installation
  • Weight 3200 tons (2000 barrel 2600 endcaps)
  • Total length of cables 1100 km
  • Many cables carry up to 16 electronics signals
  • 3 level of electronics rooms on one side, 2 on
    the other
  • Electronics power 500 kW
  • Data acquisition and control
  • 75 microprocessors for signal treatment
  • 15 powerful workstations on the surface for
    control
  • 2 large mainframes for data collection
  • Data transfer on optical link or Intranet
  • http//delphi-expo.web.cern.ch/DELPHI-Expo/Visitin
    gDELPHI.html - numbers

6
The DELPHI detector
7
The detectors
  • Set of cylindrical detectors around the beam pipe
  • Beam pipe beryllium and carbon fibre (11 cm in
    diameter)
  • ee- collisions at the center
  • 3 functions
  • Locate the particles
  • Measure their momentum / energy
  • Identify their nature (electron, pion, proton,
    kaon, muon)
  • From the center to the outer
  • Very precise at center
  • Less and less precise going to the outside
  • Tracking devices (4 layers VD, ID, TPC, OT)
  • Identification device (RICH)
  • Solenoid
  • Electromagnetic calorimeter (lead absorber)
  • Hadronic calorimeter (iron absorber)
  • Muon detector

8
Vertex Detector
  • Silicon ladders (precision 7µm) not yet
    presented

9
Inner Detector (ID)
  • Centre jet chamber
  • Drift chamber made of 24 sectors of 24 wires each
  • Measure the time electrons take to go from the
    track to the wire
  • Outside straw tubes
  • 5 layers

10
Time Projection Chamber
  • Ionisation in a gas
  • Argon methane
  • Electric field // axis
  • Electrons drift towards the outside
  • Located using a wire chamber with pads
  • Measure the drift time
  • V 6.7 cm/µs
  • Get the distance
  • 3 dimension device

11
Ring Imaging Cherenkov
  • Particles can go faster than light
  • In a given medium
  • Not in vacuum!
  • Effect similar to the sound barrier
  • Light shock-wave instead of sound shock-wave
  • Emission angle linked to the speed and the
    refraction index
  • Measuring the angle measures the speed
  • Light is focused by mirrors to form rings
  • Radius of ring depends on the angle

12
Calorimeters
  • Stop particles in heavy material
  • Instrument it to count the number of particles
    created in the shower
  • Energy proportional to number of particles
  • Lead absorber electrons and photons
  • HPC detection based on the TPC technique
  • Iron absorber hadrons (i.e. all others except
    muons and neutrinos)
  • HCAL detection based on streamer tubes

13
Solenoid
  • Superconducting solenoid
  • Cooled with liquid helium at 4.7 K
  • No power consumption
  • 5000 Amperes
  • Magnetic field 1.2 T
  • Largest superconducting solenoid in the world

14
Useful infos
  • http//delphiwww.cern.ch/
  • main DELPHI page
  • http//delphi-expo.web.cern.ch/DELPHI-Expo/Visitin
    gDELPHI.html
  • Detailed description for guides
  • All links therein pointing to specific detector
    descriptions
  • Phone numbers
  • Gerant de site 77801 or 160378
  • TSO Bernard Corajod 163350
  • Ph.Charpentier 74244 or 160167
  • R.Jacobsson 73619 or 163730
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