E. Mocchiutti, INFN Trieste - CALOR06 - 6 th June 2006, Chicago E. Mocchiutti 1, M. Albi 1, M. Boezio 1, V. Bonvicini 1, J. Lund 2, J. Lundquist 1, M.

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Presentation transcript:

E. Mocchiutti, INFN Trieste - CALOR th June 2006, Chicago E. Mocchiutti 1, M. Albi 1, M. Boezio 1, V. Bonvicini 1, J. Lund 2, J. Lundquist 1, M. Pearce 2, A. Vacchi 1, G. Zampa 1, N. Zampa 1 1.INFN Trieste 2. KTH Stockholm

E. Mocchiutti, INFN Trieste - CALOR th June 2006, Chicago Presentation outline  The PAMELA experiment  The electromagnetic calorimeter  Particle identification  Results  Conclusions

E. Mocchiutti, INFN Trieste - CALOR th June 2006, Chicago The PAMELA collaboration Bari Florence Frascati Italy: Trieste Naples Rome CNR, Florence Moscow St. Petersburg NMSU GSFC USA: Russia: India: Mumbai Germany: Siegen Sweden: KTH, Stockholm

E. Mocchiutti, INFN Trieste - CALOR th June 2006, Chicago The PAMELA experiment -Soyuz-TM Launcher from Baikonur -Earth-Observation- Satellite -PAMELA mounted inside a Pressurized Container, attached to Satellite pointing to space - Lifetime >3 years

E. Mocchiutti, INFN Trieste - CALOR th June 2006, Chicago The PAMELA experiment Quasi-polar (70.4°) Elliptical (300÷600 km)

E. Mocchiutti, INFN Trieste - CALOR th June 2006, Chicago The PAMELA experiment Spatial Resolution  3.1 μm bending view  13.1 μm non-bending view MDR from test beam data  1 TV ND p/e separation capabilities >10 above 10 GeV/c increasing with energy Six planes of scintillators strips oriented in the x and y directions - time resolution of ~300 ps - dE/dx determines particle Z Anti-coincidence shield Calorimeter Shower tail catcher scintillator

E. Mocchiutti, INFN Trieste - CALOR th June 2006, Chicago The PAMELA experiment +  Long-term monitoring of the solar modulation of cosmic rays  Energetic particles from the Sun (e + )  High-energy particles in the Earth magnetosphere PAMELA will explore:  Antiproton flux 80 MeV GeV  Positron flux50 MeV – 270 GeV  Electron flux up to 400 GeV  Proton flux up to 700 GeV  Electron/positron fluxup to 2 TeV  Light nuclei (up to Z=6) up to 200 GeV/n  Light isotopes (D, 3 He) up to 1 GeV/n  Antinuclei search (sensitivity better than in He/He)

E. Mocchiutti, INFN Trieste - CALOR th June 2006, Chicago The PAMELA experiment Anti-protonsPositrons

E. Mocchiutti, INFN Trieste - CALOR th June 2006, Chicago The PAMELA experiment

E. Mocchiutti, INFN Trieste - CALOR th June 2006, Chicago The PAMELA experiment

E. Mocchiutti, INFN Trieste - CALOR th June 2006, Chicago The PAMELA experiment

E. Mocchiutti, INFN Trieste - CALOR th June 2006, Chicago The PAMELA calorimeterThe electromagnetic calorimeter  22 W absorbers 0.26 cm/0.74 X 0  44 Si planes (380  m thick)  8x8 cm 2 detectors in 3x3 matrix  96 strips of 0.24 cm per plane  Total depth: 16.3 X 0 / ~0.6 int. len.  Mass 110 kg  Power consumption 48 W

E. Mocchiutti, INFN Trieste - CALOR th June 2006, Chicago Particle identification PAMELA will need to detect: -Anti-protons, electrons background -Positrons, protons background Rejection power needed:

E. Mocchiutti, INFN Trieste - CALOR th June 2006, Chicago Particle identification Shower identification main variables:  Total energy deposit  Starting point of the shower  Longitudinal shower profile  Transverse shower profile  Topological development of the shower

E. Mocchiutti, INFN Trieste - CALOR th June 2006, Chicago PAMELA event Ground Data muon: 2.8 GV

E. Mocchiutti, INFN Trieste - CALOR th June 2006, Chicago PAMELA event Ground Data hadron: 6.6 GV

E. Mocchiutti, INFN Trieste - CALOR th June 2006, Chicago Particle identification -Ground data (Rome 2005)

E. Mocchiutti, INFN Trieste - CALOR th June 2006, Chicago Particle identification Detectors tested at PS / SPS Test facilities as Prototypes and in FM configuration Magnet/Tracker, Calorimeter SPS, July 2002 FM SPS, September 2003 SPS, July 2000

E. Mocchiutti, INFN Trieste - CALOR th June 2006, Chicago Particle identification “gpamela” simulation:  PAMELA apparatus  Monte Carlo - GEANT 3.21  Default GHEISHA hadron shower package e (200 GeV/c)

E. Mocchiutti, INFN Trieste - CALOR th June 2006, Chicago Particle identification -Test-beam data -Particle momentum 50 GeV/c -Cut at 7300 mip % proton reduction -4.3% electron reduction Total detected energy

E. Mocchiutti, INFN Trieste - CALOR th June 2006, Chicago Particle identification -Test-beam data -Particle momentum 50 GeV/c -Cut at % proton reduction -2.5% electron reduction Topological variable

E. Mocchiutti, INFN Trieste - CALOR th June 2006, Chicago Results -Closed symbols: test beam data -Open symbols: simulations -Solid arrows: test beam data -Dashed arrow: simulations

E. Mocchiutti, INFN Trieste - CALOR th June 2006, Chicago Conclusions  The PAMELA calorimeter has been tested and studied  Electron/hadron separation has been determined  Possibility to identify rare antiproton and positron components with small background

E. Mocchiutti, INFN Trieste - CALOR th June 2006, Chicago Results Positron identification Antiproton identification

E. Mocchiutti, INFN Trieste - CALOR th June 2006, Chicago Self-trigger event

E. Mocchiutti, INFN Trieste - CALOR th June 2006, Chicago Self-trigger event

E. Mocchiutti, INFN Trieste - CALOR th June 2006, Chicago The PAMELA calorimeterThe electromagnetic calorimeter Rome 2005Samara 2005