o r&d programme to test detector concepts being developed for neutrino factory: wrong sign muon...
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R&D programme to test detector concepts being developed for neutrino factory: wrong sign muon “Golden” signature
R&D Programme MIND & TASDR&D Programme MIND & TASD
15 m
15
m
100 m
Magnetised Iron Neutrino Detector
(MIND) Totally Active Scintillating Detector
(TASD)
R&D on photon detector technology Measurements we want to make:
� Test different photon detector technologies: Avalanche Photodiodes (APD), Geiger Mode APDs (GMAPD), Silicon photomutiplier (SiPMT), Multi Pixel Photon Counter (MPPC), Multi-anode Photomultiplier Tubes (MaPMT), Hybrid Photon Detectors (HPD).
� Measure light output, PE yield, quantum efficiency, cross-talk and effect on resolution in real operating conditions
� Put different PD in test beam
Photon Detector R&DPhoton Detector R&D
R&D on extruded scintillator: attenuation as function of length, fiber insertion, optimal geometry (ie. square vs triangular or segmentation and sampling rate)
Scintillator R&DScintillator R&D
Not necessarily at
test beam
Important for very
long bars
good
Eg: MINOS
RPC vs scintillator
Readout technologyReadout technology
MINOS CALDETINO: 67%/sqrt(E)+10%
RPC prototype for the
India Neutrino Observatory (INO)
Prototype detectorPrototype detector Build prototype to put in test beam to test all of the above,
validate Monte Carlo simulations and optimise design
Use of INO test stand in a beam
environment? Other magnets at CERN?
How big do we make test beam detector?
Default is ~2x2x4 m3 ie. ~10-3 of full MIND
Important to contain < 2 GeV
Test Beam FacilityTest Beam Facility Request test beam time at CERN (ie East Area at the CERN PS) for
dedicated Neutrino Detector R&D
Need to build up infrastructure: magnet, beam telescopes, …
Neutrino detector test facility: resource for all neutrino detector R&D
MIND (and TASD) TestsMIND (and TASD) Tests Measurements we want to make:
� Muon identification: building particle ID
likelihood functions based on test beam ID
Measure PID eff. vs length of track� Charge identification (as function of B-field
and length of track)� Optimal segmentation: transverse and
longitudinal
Neutrino Factory Near Detector R&D Neutrino Factory Near Detector R&D
Near detectors: need to measure neutrino flux and relevant background for far detector signatures (ie. charm production, charge mis-identification)
R&D programme1) Vertex detector options: hybrid pixels, monolithic pixels (ie. CCD,
Monolithic Active Pixels MAPS or DEPFET), strips or 3D detectors. Synergy with other fields such as Linear Collider and LHC upgrade developments. Put different detector types in test beam.
2) Tracking: scintillation tracker (same composition as far detector). R&D should be similar to far detector.
3) Other issues relating to near detectors: particle identification, calorimetry, magnet.
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