kinematics from gem hits for pvdis
DESCRIPTION
Kinematics from GEM hits for pvdis. Rich Holmes March 2013 SoLID Collaboration Meeting. What can we learn about resolution and calibration from four numbers?. Trajectory determined by vertex (x v , y v , z v ) and momentum (p, θ, ɸ). x v , y v ≈ 0. - PowerPoint PPT PresentationTRANSCRIPT
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Kinematics from GEM hitsfor pvdis
Rich HolmesMarch 2013 SoLID Collaboration Meeting
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• Trajectory determined by vertex (xv, yv, zv) and momentum (p, θ, ɸ). xv, yv ≈ 0.
• Hits in 2 GEM chambers give 4 quantities x1, y1, x2, y2
• Can we invert the mapping? Yes, if we parameterize with the right combinations of x1, y1, x2, y2.
What can we learn about resolution and calibration from four numbers?
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Parameters
In x-y plane:
ri = length of 2-vector ri
from vertex to hit iD = distance between hitsα = angle between vectors
Others (not illustrated)<r> = (r1+r2)/2Δr = r2–r1
(and so on)
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ParametersUniform field:Trajectory in x-y plane is a circular arc of radius ρ α pT
1/ρ ≈ (ψ+δ)/(r1+D) ≈ 2α/D
tan θ ≈ D/Δz(Δz = z2–z1, distance between GEM planes)
z1–zv ≈ Δz r1/D
Approximations hold for small angles.
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ParametersRealistic field:
1/pT = kα/D(1 + Fρ(...))
tan θ = D/Δz(1 + Fθ(...))(Δz = z2–z1, distance between GEM planes)
z1–zv = Δz r1/D(1 + Fz(...))
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PVDIS geometry, 1st 2 GEMs (inside magnet)Red points: Uniform fieldBlue points: Realistic field
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Red points: Uniform fieldBlue points: Realistic field
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Momentum correction Fρ is not a function of α.
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Resolution• Calibrate by fitting against truth values to obtain Fρ, Fθ, Fz
• Using these reconstruct p, θ, z and compare to truth values
• Resolution (using MC with target, window, GEM materials):
• p: 0.86%
• θ: 0.36%
• Q2: 1.23%
• x: 0.71%
• zv: 7.8 mm
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Calibrating real data
• For real data we have no truth values; how do we calibrate?
• Elastics: p is correlated with θ
• θ calibration is not very sensitive to details of B field
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Red points: Uniform fieldBlue points: Realistic field
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Calibrating real data
• Use MC (field map accurate to 1%) to get θ calibration
• Use θ calibration and elastic data to get p calibration
• This has been demonstrated using e.g. (90% CLEO + 10% uniform) field MC to stand in for real data
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summary
• Hits in 2 GEM chambers can be used to reconstruct scattering kinematics
• Resolution with multiple scattering and detector resolution is <1% for p, <0.5% for θ
• θ can be adequately calibrated with MC; p can then be calibrated with elastic data