beam monitoring from beam strahlung
DESCRIPTION
Beam Monitoring from Beam Strahlung. work by summer students Gunnar Kl ämke (U Jena, 01) Marko Ternick (TU Cottbus, 02) Magdalena Luz (HU Berlin, 03) Regina Kwee (HU Berlin, 03) New student, summer 04. Achim Stahl DESY Zeuthen 16.Apr.2004. - PowerPoint PPT PresentationTRANSCRIPT
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Beam Monitoring from Beam StrahlungBeam Monitoring from Beam Strahlung
work by summer students
Gunnar Klämke (U Jena, 01)
Marko Ternick (TU Cottbus, 02)
Magdalena Luz (HU Berlin, 03)
Regina Kwee (HU Berlin, 03)
New student, summer 04
Achim Stahl DESY Zeuthen 16.Apr.2004
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Beam StrahlungBeam Strahlung
GeV/mm2
Diagnostics of bunches at IP
3 potential sources of information
• energy-distribution of pairs
• number-distribution of pairs
• distribution of photons
Over-simplified detector simulation
• detectors subdivided into cells
• sum energy impact on cells
main source of uncertainty stat. fluctuations of beam-str.
Linear approximation
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Redesign for larger L*
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ObservablesObservables
total energy first radial moment first moment in 1/r thrust value angular spread E(ring ≥ 4) / Etot
(A + D) – (B + C) (A + B) – (C + D) E / N
A
BC
D
forward / backward calorimeter
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Current Analysis ConceptCurrent Analysis Concept
Beam Parameters• determine collision
• creation of beamstr.• creation of e+e- pairs
guinea-pig
Observables• characterize energy
distributions in detectors
analysis program
1st order Taylor-Exp.
Observables
Observables
Δ B
eamP
ar
Taylor
Matrix
nom
= + *Solve by matrix inversion(Moore-Penrose Inverse)
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SlopesSlopes
beam parameter i
obs
erv
ab
le j
1 point =1 bunch crossing
by guinea-pigparametrization
(polynomial)
slope at nom. value taylor coefficient i,j
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Exam
ple
: S
lop
es
Exam
ple
: S
lop
es
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1st Results: Single Parameter Analysis1st Results: Single Parameter Analysis
nominal our precision Beam Diag.
Bunch width x Ave.
Diff.
553 nm 1.2 nm
2.8 nm
~ 10 %
~ 10 %
Bunch width y Ave.
Diff.
5.0 nm 0.1 nm
0.1 nm
Shintake
Monitor
Bunch length z Ave.
Diff.
300 μm 4.3 μm
2.6 μm
~ 10 %
~ 10 %
Emittance in x Ave.
Diff.
10.0 mm mrad 1.0 mm mrad
0.4 mm mrad
?
?
Emittance in y Ave.
Diff.
0.03 mm mrad 0.001 mm mrad
0.001 mm mrad
?
?
Beam offset in x
Beam offset in y
0
0
7 nm
0.2 nm
5 nm
0.1 nm
Horizontal waist shift
Vertical waist shift
0 μm
360 μm
80 μm
20 μm
None
None
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What’s new:What’s new:
consolidation of code
new observable: E(ring ≥ 4) / Etot
normalization of observables O/σ
use of external measurments
first look at real bunch trains
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Single Parameter AnalysisSingle Parameter Analysis nominal old new norm. Beam Diag.
Bunch width x Ave.
Diff.
553 nm 1.2
2.8
2.0
3.6
1.5
2.1
~ 10 %
~ 10 %
Bunch width y Ave.
Diff.
5.0 nm 0.1
0.1
0.2
0.5
0.2
0.5
Shintake
Monitor
Bunch length z Ave.
Diff.
300 μm 4.3
2.6
7.5
3.5
4.3
2.7
~ 10 %
~ 10 %
Emittance in x Ave.
Diff.
10.0 mm mrad 1.0
0.4
---
0.7
---
0.7
?
?
Emittance in y Ave.
Diff.
0.03 mm mrad 0.001
0.001
0.001
0.004
0.001
0.002
?
?
Beam offset in x
Beam offset in y
0
0
7
0.2
30
0.6
6
0.4
5 nm
0.1 nm
Horizontal waist shift
Vertical waist shift
0 μm
360 μm
80
20
---
23
---
24
None
None
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Single Parameter AnalysisSingle Parameter AnalysisTest of Linearity Range
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Single Parameter AnalysisSingle Parameter Analysis
weight ofindividual observables
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Two Parameter AnalysisTwo Parameter AnalysisE
xam
ple
: ho
rizo
nta
l bea
m s
ize
Sn
gl P
ara
m R
eso
: 1.5
nm
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Multi Parameter AnalysisMulti Parameter Analysis
σx σy σz Δσx Δσy Δσz
0.3 % 0.4 % 3.4 % 9.5 % 1.4 % 0.8 %
0.3 % 0.4 % 3.5 % 11 % 1.5 % 0.9 %
0.9 % 1.0 % 11 % 24 %
5.7 % 24 % 1.6 % 1.9 %
1.8 % 1.1 % 16 % 27 % 3.2 % 2.1 %
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Multi Parameter AnalysisMulti Parameter AnalysisTest with non-nominal bunches: e- e+ nom. bunch size x: 575nm 575nm 553nm bunch size y: 5nm 7nm 5nm bunch size z: 290μm 320μm 300μm
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Full AnalysisFull Analysis nominal 1-Par. constraint Result Beam Diag.
Bunch width x Ave.
Diff.
553 nm 1.5
2.1
---
---
25
12
~ 10 %
~ 10 %
Bunch width y Ave.
Diff.
5.0 nm 0.2
0.5
---
---
1.3
2.2
Shintake
Monitor
Bunch length z Ave.
Diff.
300 μm 4.3
2.7
---
---
20
24
~ 10 %
~ 10 %
Beam offset in x
Beam offset in y
0
0
6
0.4
5
0.5
6.4
0.8
5 nm
0.1 nm
Vertical waist shift 360 μm 24 --- 300 None
Bunch charge Ave.
Diff.
2 1010
2 1010
0.002
0.007
0.1
0.1
0.08
0.07
None
None
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Real Beams: first lookReal Beams: first lookExample of 2 observables:
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Real Beams: first lookReal Beams: first lookSingle Parameter Analysis: σx
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3 Sources of Information3 Sources of Information
• energy-distribution of pairs• number-distribution of pairs• distribution of photons
up to now: only energy distribution of pairs used
test: number-distribution of pairs
new observable Npairs / Etot
1st layer: measures Nall layers: measure E
LumiCal
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Number DistributionNumber Distribution
weight of newvariable
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Number DistributionNumber Distribution
nominal 1-Par. 6-Par.
without N
6.-Par
with N
Bunch width x Ave.
Diff.
553 nm 1.5
2.1
9.9
6.2
8.3
6.0
Bunch width y Ave.
Diff.
5.0 nm 0.2
0.5
0.8
1.3
0.6
0.9
Bunch length z Ave.
Diff.
300 μm 4.3
2.7
9.5
6.2
9.4
6.1
Example: 6-Par. Analysis
roughly 10% improvement
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First Look at PhotonsFirst Look at Photons
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First Look at PhotonsFirst Look at Photons
nominal setting(550 nm x 5 nm)
σx = 650 nmσy = 3 nm
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Next Steps:Next Steps: Include non-linear terms
understand realistic beam simulation
include photons
? impact on calorimeter design ?? impact on calorimeter design ?
Conclusions:Conclusions: Interesting resolutions achieved from single bunches
Multi-parameter analysis possible
Electron – Positron bunch can be separated
Not all parameters measurable
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1st Fit with non-linear Terms1st Fit with non-linear Terms nominal old norm. fit Beam Diag.
Bunch width x Ave.
Diff.
553 nm 1.2
2.8
1.5
2.1
1.5
2.2
~ 10 %
~ 10 %
Bunch width y Ave.
Diff.
5.0 nm 0.1
0.1
0.2
0.5
0.2
0.3
Shintake
Monitor
Bunch length z Ave.
Diff.
300 μm 4.3
2.6
4.3
2.7
4.6
2.7
~ 10 %
~ 10 %
Emittance in x Ave.
Diff.
10.0 mm mrad 1.0
0.4
---
0.7
---
1.0
?
?
Emittance in y Ave.
Diff.
0.03 mm mrad 0.001
0.001
0.001
0.002
0.001
0.003
?
?
Beam offset in x
Beam offset in y
0
0
7
0.2
6
0.4
7
0.03
5 nm
0.1 nm
Horizontal waist shift
Vertical waist shift
0 μm
360 μm
80
20
---
24
---
73
None
None
bunch rot. horizontal 0 mrad
0 mrad
---
---
---
---
49
0.06
?
?
bunch rot. vertical 0 mrad
0 mrad
---
---
---
---
0.9
0.07
?
?
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1st Fit with non-linear Terms1st Fit with non-linear Terms
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The MaskThe Mask
LumiCal shields detector against back scattered beam strahlung synchrotron radiation of final focus QUADs neutrons from the dump
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The MaskThe Mask
LumiCal shields detector against back scattered beam strahlung synchrotron radiation of final focus QUADs neutrons from the dump
10 cm graphits 5 cm graphits
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VTX-Detector:VTX-Detector:
Simulations by Karsten Büsser, Hamburg
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TPC:TPC:Simulations by Karsten Büsser
TDR
new: 0 crossing new: 20 mrad crossing
slight increase in background
? optimization possible ?
more in Paris