symmetric moeller luminosity monitorweb.mit.edu/olympus/presentations/20101101/maas.pdf ·...
TRANSCRIPT
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Symmetric Moeller Luminosity Monitor
Status Report
Frank Maas
Institut für Kernphysik
Johannes Gutenberg-Universität Mainz
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Symmetric Moeller Luminosity Monitor
New Team Members
Roberto Benito Perez (PostDoc, from November 1)
Dmitry Khaneft (PhD, Hardware/Chrystals)
Eric Göbel (Diploma Student, from November 15)
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Symmetric Moeller Luminosity Monitor
Principle: Based on (symmetric)
Moeller (e-e-) and Bhabha (e+e-) scattering,
up to 400 kHz rate
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Symmetric Moeller Luminosity Monitor
Mechanics
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Symmetric Moeller Luminosity Monitor
PbF2 crystals used in the A4-Experiment at MAMI
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Symmetric Moeller Luminosity Monitor
PbF2-Modules: precalibrated, transit time diff. < 1ns
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PbF2 crystals
Symmetric Moeller Luminosity Monitor
• Two Arrays of PbF2 crystals with PMT at small scattering angles
• Location: Between BLAST coils and beam line quadrupole
=> Tight space limitations
=> Careful consideration of magnetic fringe fields
New Magnetic Simulations
10e6
10e4
10e2
1
10e-2
10e-
Gauss
Field Inside the Box < 0,01 Gauss: More than OK
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Lead Brick Shield (~70Kg)
Accurate Rails
System
Collimator (~25Kg)
Beam
Installation into beam line
Distance to beam is adjustable Setup in the beam line
• Mechanical design finished • Parts are in the Institute's workshop
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Installation into beam line
Setup in the beam line
• Mechanical design finished • Parts are in the Institute's workshop
Optimization of collimator design
by MC studies
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Symmetric Moeller Luminosity Monitor
• Mechanics:
Crystal Modules: holder mechanically modified,
gluing starts coming week, need to be tested after
Need light fiber system for stability monitoring
• Mechanical Support:
Parts in Institute Workshop
Technical Drawings in preparation: Movable tables on rails
Potentiometer for position readout
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Symmetric Moeller Luminosity Monitor
Electronics
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Symmetric Moeller Luminosity Monitor
Electronics: Analogue Sum, 1 GHz analogue Bandwidh,
50 MHz histogramming, dead time: 20ns
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Data aqcuisition principle
Three types of triggers:
• Trigger on Lumi A
• Trigger on Lumi B
• Trigger on Lumi A&B
PVA4 trigger cards ready for use
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Data aqcuisition principle More in detail:
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Symmetric Moeller Luminosity Monitor
Electronics:
All parts are in electronics workshop
Probably ready by end of December 2010
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Symmetric Moeller Luminosity Monitor
Simulations
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Optimization of collimator design (simulation)
Kilian Lessmeier and Yue Ma: Definition of Geometry
Lead Brick Shield (~70Kg)
Accurate Rails
System
Collimator (~25Kg)
Beam
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Optimization of collimator design (simulation)
• Example: Energy deposit inside PbF2 crystals from Moeller/Bhaba events for a certain collimator thickness/diameter
• Peak width dominated by energy spread of Moeller/Bhaba events over the detector acceptance
Region I Region II
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• Variation of the collimator thickness at fixed diameter
• Variation of collimator diameter at fix thickness
Optimization of collimator design (simulation)
Quality parameter
Optimal value Optimal value
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Symmetric Moeller Luminosity Monitor
Simulations:
Refine collimator optimisation
Studies of cuts in energy spectrum on luminosity signal
Detailed study of systematics
Include two-photon effects in Moeller and Bhabha-scattering too.
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Symmetric Moeller Luminosity Monitor
“Production” of crystals starts soon
Electronics ready by end of December
Collimator and Systematics needs more studies
First system ready for test beam in February
Very reluctant to put PbF2-crystals into ring without
good knowledge of potentially “dangerous” beam properties.