data analysis (odu) and simulations (j. udias, madrid)
DESCRIPTION
Data Analysis (ODU) and Simulations (J. Udias, Madrid). Outline Introduction Hall A and Electron Scattering Experiment Goals and Kinematics Setup Data Analysis Good Runs, Target Foils, TOF, Acceptance Comparing to Previous Work R-Function and Results Summary and What’s Next?. - PowerPoint PPT PresentationTRANSCRIPT
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Data Analysis (ODU) and Simulations (J. Udias, Madrid)
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Outline• Introduction
– Hall A and Electron Scattering
• Experiment
– Goals and Kinematics Setup
• Data Analysis
– Good Runs, Target Foils, TOF, Acceptance
– Comparing to Previous Work
– R-Function and Results
•Summary and What’s Next?
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HallHall A A
TargetTarget
HRS-L HRS-R
HRS = High ResolutionSpectrometer
Mom Resolution Mom Accpt
1 x 10-4
± 4.5%
Solid Angle 6 msr
Angular Range(in degree)
12.5 – 150 (L)12.5 – 130 (R)
Angular Accpt ± 30 mr (ver)± 60 mr (hor)
Angular Resolution
1 mr ( ver)0.5 mr (hor)
TOF Resolution 1 ns FWHM
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dd
Electron-Nucleus Interactions
Three cases: Low q
– Photon wavelength larger than the nucleon size (RN)
Medium q: 0.2 < q < 1 GeV/c ~ RN
– Nucleons resolvable High q: q > 1 GeV/c
< RN
– Nucleon structure resolvable
Select spatial resolution and excitation energy independently• Photon energy determines excitation energy• Photon momentum q determines spatial resolution hbar/q
Energy vs Spatial Resolution
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Diagram of A(e,e’p)
Missing Energy:
Missing Momentum:
Em = - Tp – TR
pm = q – p’
4-vector transferred mom:
Invariant :
Q2 = 4EiEf sin2(e/2)
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Outline
• Introduction– Hall A and Electron Scattering
• Experiment– Goals and Kinematics Setup
• Data Analysis– Good Runs, Target Foils, TOF, Acceptance– Comparing to Previous Work– R-Function and Results
• Summary and What’s Next?
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Goals of E00102 Measurement of cross-section, RLT and ALT
for the 16O(e,e’p) reaction with higher precision and to higher missing momentum than in E89003.
Determine the limit of validity of the single-particle model of valence proton knock-out.
Determine effects of relativity and spinor distortion on valence proton knock-out using the diffractive character of the ALT symmetry.
Determine bound-state wave function and spectroscopic factors for valence proton knockout.
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E00102 Setup
Ebeam = 4.620 GeV Mom central: 1.067 GeV/c (proton)
and 4.120 GeV/c (electron) Mom transfer, |q| = 1.073 GeV/c
Energy transfer, = 0.499 GeV Q2 = 0.902 (GeV/c)2
e = 12.50o (fixed) 28.3o < p < 96.2
o (+/- kins) 0 < Em < 0.240 GeV -0.515 < pm < 0.755 GeV/c
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Kin Settings• 9 “Negative” Kins• 11 “Positive” Kins • 1 Parallel Kin
Statistics • Total : 1743 runs• Good (77%)• Fixable (4%) • Calibration (6%) • Bad Runs (13%)
E00102 Kinematics
+
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mm
mm
28o – 96o
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• Introduction– Hall A and Electron Scattering
• Experiment– Goals and Kinematics Setup
• Data Analysis– Good Runs, Target Foils, TOF,
Acceptance– Comparing to Previous Work– R-Function and Results
• Summary and What’s Next?
Outline
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Good Runs
coll open
coll 6msr
Fixable
Bad Runs
T1/T3
RUNNO
T1 = Proton RatesT3 = Electron Rates
Determining “Good” Runs For Kin AA+
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Uncut CTOF cut
How We Handle Targets Kin AA+
Foil 1
Foil 2
Foil 3
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Time of Flight : Kin AA- (1531)
1 32
Region A
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Missing Energy Spectra : Kin AA- (1531)
True = Real – 2 Accidental (1+ 3)
Events
1P1/2
1P3/2
Mistiming factor
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1P1/2 Relative Cross SectionComparing to Previous Results*
• Determination of 1P1/2 cross section relative to H(e,e’)
* M. Anderson, Licentiate Thesis October 2005
Previous Work This Work
Pm Range
0 < Pm < 350 MeV Same
Kins A+, C+, D+, E+, F+ A± and D±
Bin Size Pm: 2 MeV/c (A-D) 4MeV/c (E-F)
Pm: 2 MeV/cEm: 0.5 MeV
Accpt cuts
: ±50 mr, : ±50 mr: ±3.5%
: ±50 mr, : ±25 mr: ±3.5%
Unc. 7% (stat) and 5%(syst) 7% (stat)
Only used central target foils !
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Relative Cross Section• Cross Section :
16O(e,e’p) :
H(e,e’) :
• Relative Cross Section :
No L !
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Data
• Replayed good runs • Implemented energy loss correction • Studied CTOF, zreact, acceptances, Emiss, Pmiss, mistiming factor correction, etc.
• Applied angular cuts : (±50 mr) and (±25 mr)
• Applied momentum cuts : (±3.5%)• Applied background subtraction.
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Simulation
• Bound states physics models – calculated by Madrid Group.
• Spectrometer models – ON, radiative effects – ON, and energy loss correction – OFF
• Use the same acceptance values (,,and ) as in data.
• Use target configuration that built into the MCEEP.
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Recipe relative for 1P1/2
1. Apply cuts on tg, tg, zreact, CTOF (Region A), and Emiss.
2. Subtract CTOF background bin-by-bin.
3. Apply mistiming correction factor4. Normalize to 1H(e,e’)luminosity5. Normalize to MC phase-space6. Divide each data point by pmiss
bin width
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relative for 1P1/2 (Central
Foils)
Pmiss (MeV/c) dhfkjklll
Previous Work
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Pmiss (MeV/c)
AA+
DD+
AA-
DD-
relative for 1P1/2 (Central
Foils) This Work
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R-FunctionMaximize Event Acceptance
Determine nominal acceptance boundaries (tg, tg, ) for each HRS.
R-function measures distance (+/-) to boundary of each trajectory : 1. R < 0.0 outside 2. R >= 0.0 inside
Choose cut to make on R a. where we understand the acceptance b. Maximize it
tg
tg
R-arm Kin AA- (1531)
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R-Functions of Kin AA+ (1315)
Red (Data) and Blue (Simulation)
L-Arm R-Arm
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Where to R-Function Cuts? (Kin AA+)L-Arm R-Arm
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Value of R-Function Cuts
Next plots four different conditions of R-cut are used:1. No R-cut (uncut)2. R > 0.03. R > 0.0054. R > 0.01
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Uncut R > 0.0 R > 0.005 R > 0.01
L-Arm Acceptance with 3-foils : Kin AA+
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R-Arm Acceptance with 3-foils : Kin AA+Uncut R > 0.0 R > 0.005 R > 0.01
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Missing Momentum : Kin DD+ (1497)
R > 0.005 R > 0.01R > 0.01R > 0.005
R > 0.0Uncut
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Outline
• Introduction– Hall A and Electron Scattering
• Experiment– Goals and Kinematics Setup
• Data Analysis– Good Runs, Target Foils, TOF, Acceptance– Comparing to Previous Work– R-Function and Results
• Summary and What’s Next?
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Summary and What’s Next?
Intensive studies to understand both data and simulation has been performed. Treatment for both data and simulation is better understood.
All three foils cut would be used (previous work only used the central foils).
R-function is now better understood and will be implemented as the acceptance cut for both data and simulations.
Ready to replay to all different sets of kinematics and ready to fix/save runs (to gain better statistics).
Plan to perform the reduced cross section and make plots of red versus pmiss for available replayed runs in each kinematics.
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THANK YOU,ANY QUESTION ?