calibration of the minos detectors using stopping muons jeff hartnell university of oxford &...
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Jeff Hartnell, IoP Particle Physics 2004 MINOS Neutrino Physics Long-baseline neutrino oscillation experiment. Compare Near and Far neutrino energy spectra. Looking for disappearance as a function of energy – “the dip”. Very important that we can accurately reconstruct the neutrino energy. Near Far Ratio: Far/NearTRANSCRIPT
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Calibration of the MINOS Detectors Using Stopping Muons
Jeff HartnellUniversity of Oxford & Rutherford Appleton Laboratory
IoP Particle Physics 2004 Tuesday 6th April
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Jeff Hartnell, IoP Particle Physics 2004
Talk Outline
The MINOS Experiment Near, Far and Calibration Detectors Calibrating the Calorimeter Stopping Muons: Our Standard Candle
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Jeff Hartnell, IoP Particle Physics 2004
MINOS Neutrino Physics
Long-baseline neutrino oscillation experiment.
Compare Near and Far neutrino energy spectra.
Looking for disappearance as a function of energy – “the dip”.
Very important that we can accurately reconstruct the neutrino energy.
Near
Far
Ratio:
Far/Near
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Jeff Hartnell, IoP Particle Physics 2004
Calibration Targets
Will hopefully have statistics for 10% measurement of m2.
Have a target of 5% for the absolute energy calibration.
Require that the relative calibration between detectors is 2%.
Δm2
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Jeff Hartnell, IoP Particle Physics 2004
MINOS Detectors (x3)
Common features: Alternating steel-
scintillator, magnetised, tracking calorimeters
WLS fibre-optic cables to extract the scintillator light
Far Detector planeunder construction
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Jeff Hartnell, IoP Particle Physics 2004
Near Detector
Breakin
g New
s
First P
lane I
nstalle
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31st M
arch 20
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Jeff Hartnell, IoP Particle Physics 2004
Calibration Detector at CERN (CalDet)
Small version of Near and Far detectors
Exposed to , p, e, beams 0.5-10 GeV
Hadronic & EM energy response
Tune the MC
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Jeff Hartnell, IoP Particle Physics 2004
Neutrino Energy Reconstruction Need to accurately
determine original neutrino energy to see “the dip”.E = EHad + EVisible)
E= f(Range) &
f(B-Curvature) EHad= f(Energy Dep.)
μ μ
hadrons
5 m
μ
hadrons
μ1.5 m
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Jeff Hartnell, IoP Particle Physics 2004
Calibrating the Calorimeter
Problems:
Scintillator output varies by up to 20% from strip to strip.
Light output depends on particle type and particle energy.
Solutions:
Normalise using cosmic muons.
Measure response with Calibration Detector in MEU/GeV.(MEU=Muon Energy Unit)
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Jeff Hartnell, IoP Particle Physics 2004
Why Stopping Muons?
Need a calibration source of known energy - a “standard candle”.
Don’t have a “PS” accelerator ½ mile underground to provide beams of particles
The energy spectrum of cosmic muons (and hence energy deposition) is different for Near and Far detectors and not known accurately enough.
Working backwards from the end of a stopping muon track you know its energy – Use to define a Muon Energy Unit (MEU).
Stopping muons are the same at all 3 detectors!
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Jeff Hartnell, IoP Particle Physics 2004
Relativistic rise in ionisation ~10%
Muons stop here
Stopping Beam Muons in CalDet (at 1.8 GeV/c)
Beam Direction
Corrected ADCs
Plane
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Jeff Hartnell, IoP Particle Physics 2004
Track Window Method
Want a method that is inherently robust and not sensitive to reconstruction problems.
Sum up the energy deposition in a window.
Define a Muon Energy Unit (MEU) to be the average energy deposited in the window by a perpendicular muon in one detector plane.
Window
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Jeff Hartnell, IoP Particle Physics 2004
Conclusion The main physics measurement requires accurate
reconstruction of the neutrino energy to 5%. Explained how MINOS has 3 detectors in very
different environments. Need to set the absolute energy scale to be the same for each detector.
No beam source of GeV particles for calibration underground so use stopping cosmic muons.
Take a window on the stopping muon track to measure the detector response.
Should enable us to meet our 2% relative calibration target and hence accurately measure m2.
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The End!