First look at PFA/clustering with RPC-based calorimeter
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Transcript of First look at PFA/clustering with RPC-based calorimeter
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Adam Para, October 14, 2005
First look at PFA/clustering with RPC-
based calorimeter
Progress Report
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Step 1: Gas calorimetry
GEANT 3.21 modeling Hadron shower simulation
(GCALOR+GFLUKA) consistent with MINOS test calorimeter
2 cm iron, 1x1 cm2 readout pads
Pad multiplicity = 1 + with p =
2,5,10,20,50,100 GeV/c, 1000events at each momentum• Significant non—linearity of
the response (~20% @ 100 GeV)
• Large constant term (~10%) for the energy resolution
• Why ?
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Gas calorimetry ctnd• 20 GeV:
• E/E 0.132, or
• E/E=0.59/√E
• Fairly gaussian response
• 2 GeV (‘low energy’):
• long tail towards higher response
•It is caused by particles traversing long distance before the interaction
•Expect very large difference in the response to charged and neutral particles
• 100 GeV (‘high energy’):
• long tail towards low energies
• caused by multiply hit cells inside EM showers
• saturation leads to degradation of energy (constant term, non-linearity)
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PFA: what do we want?
PFA Challenge:
• identify and discard all red/green points
•Identify and count all blue points
Chief (?) difficulties:
• identify ‘blue’ cluster in the midst of the red/green one
•Properly identify the disconnected red cluster (a.k.a. ‘fragment’)
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PFA: is it obviously impossible?
Yes? Hadrons impact the calorimeter at ~ 10 cm distance Hadronic shower has transverse dimension of ~40-50 cm Hadronic showers are extremely irregular, they do not follow
‘shower profile’
No? Hadronic showers are extremely irregular, they do not follow
‘shower profile’ Although to contain the shower energy one needs a ‘cylinder’ ~40-
50 cm, L=100 cm for any particular hadron shower this cylinder is very sparsely occupied. Example: such a cylinder contains ~8,000 readout cells, 1 x 1 cm2. Only ~ 1000 of them are hit. Occupancy is ~12%
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PFA Challenge: develop a metric in the hit cells space
which optimizes the separation of ‘charged hadron cluster’ from ‘neutral hadron clusters’
Figure of merit: minimize fluctuations of the energy in the clusters classified as ’neutral hadrons’ about the true energy of the neutral hadrons
Auxiliary information: momentum and spatial position of charged hadrons, possibly energy deposition in the hit cell
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First try: cartesian distance
Find trees of hits with close proximity, d<dcut
Here the example of 20 GeV charged pion, dcut=5 cm
‘Objetcs’ found: Clusters Single points
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Cartesian distance, typical example
20 GeV + dcut = 20 cm
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Total energy of the ‘main cluster’
High energy showers are more collimated, hit cells are closer
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“Fragments” multiplicity and energy
Energy of the ‘second’ cluster
(~10 hits = 1 GeV)
Total number of clusters found
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Leftovers: single hits
‘free floating’ single hits are probably harmless, there are so few of them that they will not lead to accidental cluster formation
Ignoring scattered single one modifies the effective energy calibration (1-2% effect) but induced non-linearity of the response is minimal.
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This was the simplest choice. Metric closest to ones intuition, but surely not the optimal one.
‘Improvement’: showers are cigars rather than spheres as pt of particles produced in hadronic interaction is limited to ~ 300 MeV/c.
Transverse distance between cells less likely than the longitudinal one
2 2 20.05cutd x y z
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‘Transverse metric’ I
Significant improvement: better energy containment in the main cluster, smaller secondary cluster
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‘Transverse metric’ II
Significant improvement: fewer secondary clusters, fewer left-over cells
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