m.c. studies of cdc axial/stereo layer configuration
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M.C. Studies of CDC Axial/Stereo Layer Configuration. David Lawrence, JLab Sept. 19, 2008. How c 2 is defined. The c 2 is formed using the residuals between the fit and thrown parameters:. - PowerPoint PPT PresentationTRANSCRIPT
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CDC Tracking MC Studies -- D. Lawrence, JLab
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M.C. Studies of CDC Axial/Stereo Layer
ConfigurationDavid Lawrence, JLab
Sept. 19, 2008
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How c2 is defined
The c2 is formed using the residuals between the fit and thrown parameters:
If the components are independent and drawn from a Gaussian parent distribution, this would follow a “chi-squared” distribution with a well-known probability distribution
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Map of c2/dof as a function of 2 of the 5 fit parameters
Event A Event B
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Event 1914 has a large c2/dof
A bird’s eye view of the event looks like everything is OK
Blue (thick) is the thrown track
Orange (thin) is the fit track
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Event 1914 has a large c2/dofX-Y view of Event 1914
Thrown track
Fit track
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Event 1179 has a large c2/dofX-Y view of Event 1179
Thrown track
Fit track
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Other events with poor c2/dof with pt as dominant term
Event 1277 Event 2342
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Two options for CDC stereo configuration
2 stereo superlayers 3 stereo superlayers
stereo8 stereo99/19/08
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Alignment of CDC straws
• df relative to the f of the wire in layer 23 as a function of f.
• Pattern comes from neighboring layers having only slightly more (or less) straws than layer 23.
• f values with high density of points indicate areas where there is a high degree of alignment.
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Alignment of CDC straws w/ phase shifts
• To disrupt the alignment of the wires, phase shifts in f were introduced for each layer.
• Every 4th layer was rotated by:
0+Dfi/2-Dfi/3+Dfi/5
where Dfi is the angle between adjacent wires in the layer
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Reciprocal of phase difference densityIn this plot, larger values indicate greater alignment of the straws in the outer layers (15-25).
The stereo9 configuration is slightly better than stereo8, but both are improved significantly by adding relative phase shifts between layers.
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5 CDC configurations studied(yes, only 4 are shown)
24 layers
27 layers
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What was simulated• 1 million single p+ events for each
configuration. MS, E-loss on, but no position smearing
• Finder and fitter used in conjunction (previously, all fit results came from using the thrown values for the candidates)
• Efficiency determined by cut on c2/dof derived from parameters (not hit residuals)
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“Tracking Efficiency” compared to c2 cumulative distribution function
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Pulls with double Gaussian fits
Red = Tracking ResultsThick black = double gaussianThin black = gaussian (sampled)
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df
dpt/pt dq
c2
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Efficiency as a function of phase space0.2 GeV/c ≤ p ≤ 2.0 GeV/c 15o ≤ q ≤ 140o
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Toy model c2 shares features with MC Simulation study
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MC Simulation with reconstruction
Toy model plot (left) includes all L-R solutions (including 15 “wrong” ones)
MC Simulation includes 1 guess for L-R solution
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Probability Distributions for two ways of fitting pull distributions
Gaussians fit only to core of pull distributions Gaussians fit to full pull distributions
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Tracking Efficiency for Several CDC ConfigurationsPhasespace: range
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dE in single tube reported by hdgeant
Nominal Geometry Close Packed
Green regions are estimates of hits discarded by dE threshold. Estimate is made by straight line from 0,0 to 1keV point. This likely overestimates the below-threshold contribution.
NOTE: Max energy deposition at 90o : (1.6 cm)(2.6 keV/cm) = 4.16 keV
Phasespace: 1 GeV/c ; 90o
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CDC hits per trackNominal Geometry Close Packed
The number of missing hits was fit to a Poisson and the mean taken as the average number of missed hits.
The Nominal Geometry is consistent with the single hit efficiency derived from the dE plots.
The Close Packed geometry is consistent with ~9% inefficiency on average due to gaps in the “close-packed” axial layers.
Phasespace: range
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Distance of Closest Approach (DOCA)(calculated from tdrift-tof)
Nominal Geometry Close Packed
Phasespace: 1 GeV/c ; 90o
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DOCA distributions seem consistent with the 88.2% single hit efficiency and cut on dE which corresponds to the outer part of the tube.
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Expected energy loss in CDC gas
• Total for CDC gas dE/dx = 2.597 keV/cm
dE/dx (MeV/g cm2)
r (g/l)
dE/dx (keV/cm)
Ar (85%)
1.519 1.622 2.464
CO2(15%)
1.819 1.842 3.351
a
x
= 1.26cm3.27 keV
Note: for a 1 keV energy loss, expect x=7.8mm or about 2.45% inefficiency9/19/08 CDC Tracking MC Studies -- D.
Lawrence, JLab
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Tracking Efficiencywith and without dE threshold
Phasespace: range
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Close packing vs. extra layersThe low-threshold baseline design (shifted) has approximately the
same number of hits per track as the close packed design with a high threshold. This gives a suggestion as to how much close packing buys vs. extra layers.
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2 stereo superlayers
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Conclusions• 3 stereo superlayers improves tracking
efficiency• Additional layers improves tracking efficiency
(we seem to be in a region of high sensitivity)• Single hit efficiency due to 1keV threshold is
~88%. The energy distribution from hdgeant needs to be verified and then the threshold examined more closely
• c2 distribution is not yet fully understood, but tests are underway to see if it is linked to the Left-Right ambiguity issue
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Backup Slides
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Gaussian fits to full pull distributions (not just Gaussian cores)
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Expected Probability Density as a Function of the Integral Fraction
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Efficiency as a function of transverse momentum and polar angle
stereo8 stereo9
Differences not really noticeable here!
Total momentum range: 150MeV/c - 2GeV/cTotal angular range: 15o – 140o
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Pulls of momentum parametersfor CDC option-1 and option-2
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Efficiency vs. accuracy of fit parameters
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Pulls from fits with perfect conditions for stereo8
off
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Why “perfect” isn’t perfect• hdgeant estimates the point of closest approach (POCA) to be the midpoint of the entrance and exit points of the tube.
This is true to about 10 mm (systematic)
• Tracking reconstruction approximates trajectory as parabola near wire and calculates POCA from that
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Efficiency for “perfect” conditions
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