beam position stabilization using an active collimator in hall d at jefferson lab richard jones,...
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![Page 1: Beam Position Stabilization Using an Active Collimator in Hall D at Jefferson Lab Richard Jones, University of Connecticut, for the GlueX collaboration](https://reader030.vdocuments.site/reader030/viewer/2022032704/56649d3b5503460f94a15c5a/html5/thumbnails/1.jpg)
Beam Position Stabilization Using an Active Collimator
in Hall D at Jefferson Lab
Richard Jones,University of Connecticut,for the GlueX collaboration
American Physical SocietyDiv. of Nuclear Physics MeetingOctober 23-26 2008, Oakland, CA.
![Page 2: Beam Position Stabilization Using an Active Collimator in Hall D at Jefferson Lab Richard Jones, University of Connecticut, for the GlueX collaboration](https://reader030.vdocuments.site/reader030/viewer/2022032704/56649d3b5503460f94a15c5a/html5/thumbnails/2.jpg)
APS DNP Meeting, October 23-26, 2008, Oakland, CA2
Tungsten pin-cushion detector
– used on SLAC coherent bremsstrahlung beam line since 1970’s
– SLAC team developed the technology through several iterations
– reference: Miller and Walz, NIM 117 (1974) 33-37
active device
primary collimator (tungsten)
Active collimator design
![Page 3: Beam Position Stabilization Using an Active Collimator in Hall D at Jefferson Lab Richard Jones, University of Connecticut, for the GlueX collaboration](https://reader030.vdocuments.site/reader030/viewer/2022032704/56649d3b5503460f94a15c5a/html5/thumbnails/3.jpg)
APS DNP Meeting, October 23-26, 2008, Oakland, CA3 12 cm 5 cm
beam
Active collimator design
![Page 4: Beam Position Stabilization Using an Active Collimator in Hall D at Jefferson Lab Richard Jones, University of Connecticut, for the GlueX collaboration](https://reader030.vdocuments.site/reader030/viewer/2022032704/56649d3b5503460f94a15c5a/html5/thumbnails/4.jpg)
APS DNP Meeting, October 23-26, 2008, Oakland, CA4
x (mm)
y (m
m)
current asymmetry vs. beam offset
20%
40%
60%
Active collimator simulation
![Page 5: Beam Position Stabilization Using an Active Collimator in Hall D at Jefferson Lab Richard Jones, University of Connecticut, for the GlueX collaboration](https://reader030.vdocuments.site/reader030/viewer/2022032704/56649d3b5503460f94a15c5a/html5/thumbnails/5.jpg)
APS DNP Meeting, October 23-26, 2008, Oakland, CA5
inner ring ofpin-cushion plates
outer ring ofpin-cushion plates
10-4 radiatorIe = 1A
Simulated detector response
Monte CarloMonte Carlo
![Page 6: Beam Position Stabilization Using an Active Collimator in Hall D at Jefferson Lab Richard Jones, University of Connecticut, for the GlueX collaboration](https://reader030.vdocuments.site/reader030/viewer/2022032704/56649d3b5503460f94a15c5a/html5/thumbnails/6.jpg)
APS DNP Meeting, October 23-26, 2008, Oakland, CA6
using inner ring only for fine-centering
±200 m of motionof beam centroid onphoton detector
corresponds to
±5% change in theleft/right currentbalance in the innerring
Position sensitivity
Monte CarloMonte Carlo
![Page 7: Beam Position Stabilization Using an Active Collimator in Hall D at Jefferson Lab Richard Jones, University of Connecticut, for the GlueX collaboration](https://reader030.vdocuments.site/reader030/viewer/2022032704/56649d3b5503460f94a15c5a/html5/thumbnails/7.jpg)
APS DNP Meeting, October 23-26, 2008, Oakland, CA7
Position sensitivity
intensity inside aperture polarization inside aperture
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APS DNP Meeting, October 23-26, 2008, Oakland, CA8
Prototype construction
Pin cushions fabricated Pin cushions fabricated using EDM machine in using EDM machine in FSU Physics shopFSU Physics shop
• pure tungsten too brittle
• machinable tungsten OK
• finding the right material is crucial
![Page 9: Beam Position Stabilization Using an Active Collimator in Hall D at Jefferson Lab Richard Jones, University of Connecticut, for the GlueX collaboration](https://reader030.vdocuments.site/reader030/viewer/2022032704/56649d3b5503460f94a15c5a/html5/thumbnails/9.jpg)
APS DNP Meeting, October 23-26, 2008, Oakland, CA9
Prototype construction
partitioned anode (Al) insulating cathode holder (CaB6)
![Page 10: Beam Position Stabilization Using an Active Collimator in Hall D at Jefferson Lab Richard Jones, University of Connecticut, for the GlueX collaboration](https://reader030.vdocuments.site/reader030/viewer/2022032704/56649d3b5503460f94a15c5a/html5/thumbnails/10.jpg)
APS DNP Meeting, October 23-26, 2008, Oakland, CA10
Prototype construction
![Page 11: Beam Position Stabilization Using an Active Collimator in Hall D at Jefferson Lab Richard Jones, University of Connecticut, for the GlueX collaboration](https://reader030.vdocuments.site/reader030/viewer/2022032704/56649d3b5503460f94a15c5a/html5/thumbnails/11.jpg)
APS DNP Meeting, October 23-26, 2008, Oakland, CA11
Installed in Hall B alcove
direction of scans
Notice: cableon one sidehangs into the beam.
Only oneOnly onechannel pairchannel paircan be readcan be readout at a timeout at a time
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APS DNP Meeting, October 23-26, 2008, Oakland, CA12
Results with Hall B photon beam
beam energy 5.053 GeV radiator 50 microns thick (3 10-4 rad.len.) beam current 9.0 nA (1% of max Hall D flux) radiator-collimator distance ~65 m beam collimated upstream of CLAS to
0.43 m/E – beam transverse size truncated
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APS DNP Meeting, October 23-26, 2008, Oakland, CA13
Results with Hall B photon beam
inner wedges, raw data outer wedges, raw data
innercableouter
curr
ent
(arb
. un
its)
curr
ent
(arb
. un
its)
![Page 14: Beam Position Stabilization Using an Active Collimator in Hall D at Jefferson Lab Richard Jones, University of Connecticut, for the GlueX collaboration](https://reader030.vdocuments.site/reader030/viewer/2022032704/56649d3b5503460f94a15c5a/html5/thumbnails/14.jpg)
APS DNP Meeting, October 23-26, 2008, Oakland, CA14
Results with Hall B photon beam
fit the blue, overlay on green fit the green, overlay on blue
curr
ent
(arb
. un
its)
curr
ent
(arb
. un
its)
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APS DNP Meeting, October 23-26, 2008, Oakland, CA15
Future plans
New beam test without narrow upstream collimator New beam test without narrow upstream collimator to enable a more quantitative test of simulations.to enable a more quantitative test of simulations.
Instrument all four wedges along one axis and Instrument all four wedges along one axis and demonstrate ability to reproduce beam position.demonstrate ability to reproduce beam position.
Record currents at frequency 1KHz and measure Record currents at frequency 1KHz and measure 60Hz beam motion, and higher harmonics.60Hz beam motion, and higher harmonics.