Absolute polarimetry at RHIC Hiromi Okada (BNL) I. Alekseev, A. Bravar, G. Bunce, S. Dhawan, O....
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Transcript of Absolute polarimetry at RHIC Hiromi Okada (BNL) I. Alekseev, A. Bravar, G. Bunce, S. Dhawan, O....
![Page 1: Absolute polarimetry at RHIC Hiromi Okada (BNL) I. Alekseev, A. Bravar, G. Bunce, S. Dhawan, O. Eyser, R. Gill, W. Haeberli, O. Jinnouchi, A. Khodinov,](https://reader035.fdocuments.us/reader035/viewer/2022062423/56649f065503460f94c1c505/html5/thumbnails/1.jpg)
Absolute polarimetry at RHIC
Hiromi Okada (BNL)I. Alekseev, A. Bravar, G. Bunce, S. Dhawan, O. Eyser, R. Gill,
W. Haeberli, O. Jinnouchi, A. Khodinov, K. Kurita, Z. Li, Y. Makdisi, I. Nakagawa, A. Nass, S. Rescia, N. Saito,
E. Stephenson, D. Svirida, T. Wise, A. Zelenski
1. How to measure absolute beam polarization?
2. Polarized hydrogen atomic gas jet target system
3. Recoil spectrometer and analysis
4. AN results from RUN4
5. Beam polarization measurements from RUN5
6. Next step towards the best accuracy
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RHIC Spin Program requires
How to measure beam polarization ?
%5P
P
beam
beam
Nbeam A
P
N
N
beam
beam
A
A
P
P
: raw asymmetry
AN: analyzing power
Statistical issueOur mission achieve 5% measurement
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In the region of -t ~ 10-3 (GeV/c)2, CCoulomb interaction and NNuclear interaction become same size and IInterfere each other (CNICNI).
AANN is expected to be large! is expected to be large!
02 inout ppt
Non-zero AN large cross section Common detector set up for different beam
momentum. Injection 24GeV/c, flattop 100GeV/c ~ 250GeV/c
How to choose an ideal interaction for polarimeter ?
inp
outp A
Polarized Proton beam
Elastic scattering process Elastic scattering process ppAA ppAA in very small in very small --tt region. region. Our case: A is proton or Carbon.Our case: A is proton or Carbon.
![Page 4: Absolute polarimetry at RHIC Hiromi Okada (BNL) I. Alekseev, A. Bravar, G. Bunce, S. Dhawan, O. Eyser, R. Gill, W. Haeberli, O. Jinnouchi, A. Khodinov,](https://reader035.fdocuments.us/reader035/viewer/2022062423/56649f065503460f94c1c505/html5/thumbnails/4.jpg)
AGS and RHIC polarimeter complex
IP12
AGS ppCC polarimeter pC pC
Beam
H-Jet polarimeter pp pp RHIC ppCC polarimeter
pC pC
Wednesday 15:40~
Y. Makdisi
• Calibration for RHIC pC polarimeter (OFFLINE)
• ONLINE monitor,• Fill by Fill beam
polarization (OFFLINE).
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Ptarget from BRP
<Pbeam> from H-Jet-polarimeter
Effective ANpC of RHIC p
C-polarimeter
Fill by fill beam polarizations for experiments
AN of pp pp
Physics motivation.
Confirmation of the system works well.
Road to fill by fill Pbeam (OFFLINE)
target , beam
beampC
H-jet polarimeterRHIC pC polarimeter
Details of pC pol. are …
Today 16:00 ~
A. Bazilevsky
B. Morozov
Thursday 9:00~
I. Nakagawa
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Beam and target are both protons, AN should be same.
Ptarget is measured by BRP precisely.
Method to get <Pbeam>
P
P
tAbeam
beam
etargt
etargtN
RHIC proton beam
Forward scatteredproton
H-jet target
recoil proton
PPetargt
beametargtbeam
02 inout ppt
Minimize systematic Minimize systematic uncertainty by using the uncertainty by using the same system !same system !
Checking AChecking ANN, we confirm , we confirm
our system works our system works properly.properly.%5
P
P
P
P
target
target
beam
beam
How precisely we know AHow precisely we know ANN??
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2hadNF
emNF
*hadSF
hadNF
emSFN ImA
Physics motivation: Precise AN data in CNI region
• Unpredictable• Parameter r5
Re r5= 0.02 r5= 0 Re r5= 0.02
E704, FNAL 200 GeV/c
Phys. Rev. D 48, 3026 (1993)
0.001
Understanding of AN before 2004
0.001
Expected to be dominant and calculable.
1st term
%5A
A
N
N
Spin-orbit interaction from the motion of the neutron magnetic moment in the nuclear-coulomb field (Schwinger 1948)
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Polarized atomic hydrogen gas jet target system
• Polarization
• Profile
• Thickness
• Stability
Brief historyApril 2002
Atomic Beam Source trajectory calculation completed. Magnets ordered.
January 2002
Wisconsin Univ. and BNL design details.
January 2003
Chambers for Jet ordered.
March 2004
H-jet system installed and completed commissioning run successfully!
Very stable 2005, 2006 long runs!
Very rapid assembly sequence by super professional team!
Wednesday 9:00~W. Haeberli
(H-jet-target system)
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RHIC proton beam
H-jet-target system
Recoil proton
• Height: 3.5 m
• Weight: 3000 kg
• Entire system moves along x-axis 10 ~ +10 mm to adjust collision point with RHIC beam.
IP12
zyx
target
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RF transitions (WFT or SFT)
|1> |2> |3> |4>
Separating Magnet (Sextuples)
H2 desociater
Holding magnet
2nd RF-transitions for calibration
P+ OR P
H = p+ + e
Atomic Beam Source
Scattering chamber
Breit-Rabi Polarimeter
Separating magnet
Ion gauge
|1> |3> |2> |4>
|1> |2>
|1> |2>
H-jet-target system
Ion gauge
Hyper fine structure
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Target polarization
Correct H2, H2O contamination. Divided by factor 1.037
Ptarget = 92.4% 1.8%1 day
Nuclear polarization of the atoms measured by BRP: 95.8% 0.1%
Nuclear polarization
Very stable for entire run period !
Polarization cycle (+/ 0/ ) = (500/50/500) seconds
%2PP
etargt
etargt
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Target profile and thickness
Target profile• Target size in collision point
FWHM = 6.5 mm
• Guarantee required angle resolution ~ 5 mrad
• Target thickness along z-axis: (1.3 0.2 )1012 atoms/cm2
Achieve designed values! Measurements were done by using 2.0
mm diameter compression tube
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Fix RHIC proton beam position (diameter ~1mm).
Move H-Jet-target system for every 1.5 mm step.
Recoil detector can detect H-Jet-target !
Using RHIC-beam and Recoil detector
Using 2.0 mm diameter compression tube
Find the best collision point !
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Recoil detector set up
Analysis
1. Recoil proton kinetic energy correction
2. Elastic event selection
Raw asymmetry
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RHIC proton beam
H-jet target
IP12
recoil proton
Si detectors (8cm 5cm)3 L-R sides
Strip runs along RHIC beam axis
1ch width = 4mm (400strips)
Channel # relates to recoil angle R, 5 mrad pitch.
Each channel measures kinetic energy TR and TOF.
L = 0.8 m
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Read out electronics
Three left-right pairs of Si detectors
・ 96 read-out channels
・ 96 charge-sensitive preamplifiers
RHIC-ring, IP12 Recoil spectrometer
Counting room
1. Signal shaping
2. Wave Form Digitizer
3. DAQ-PC55 m twisted pair cables (category 5)
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Ch#1
source for energy calibration 241Am(5.486 MeV)
How to identify elastic events ?
proton beam
Forward scatteredproton
proton target recoil proton
Array of Si detectors measures TR & ToF of recoil particles. Channel # corresponds to recoil angle R.2 correlations (TR & ToF ) and (TR & R ) the elastic process
Ch#2Ch#3Ch#4Ch#5Ch#6Ch#7Ch#8Ch#9Ch#10Ch#11,12Ch#13Ch#14Ch#15Ch#16Ch#1-16
Ch# R, R big TR big fast protons 02 inout ppt
R
Ch#1
#16
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Al electrode
p+
Fid
uci
al V
oF
idu
cial
Vo
lum
e lu
me
n
SiO2
Entrance-Entrance-window window
Recoil protons
Al anode
Recoil proton kinetic energy corrections -t-t = 2m = 2mppTTRR
Measured deposit energy = kinetic energy ; 1< TR <7 MeV
Energy loss correction in “the entrance-window” for low energy recoil protons: TR < 1 MeV.
Full Full depositdeposit
Punch-throughPunch-through
Punch through correction for high energy recoil protons: TR > 7 MeV.
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R
p
T2
mLcal.ToF
Recoil protons : |ToFca
l. ToF| < 8 nsec
Blue area: |ToFcalToF| 8 nsec
Red line:expected spectrum from ToF and TR resolutions
Recoil proton identification
![Page 20: Absolute polarimetry at RHIC Hiromi Okada (BNL) I. Alekseev, A. Bravar, G. Bunce, S. Dhawan, O. Eyser, R. Gill, W. Haeberli, O. Jinnouchi, A. Khodinov,](https://reader035.fdocuments.us/reader035/viewer/2022062423/56649f065503460f94c1c505/html5/thumbnails/20.jpg)
Forward scattered proton identification
Blue area: ”selected” channels
Red line: Expected spectrum from TR and R resolutions
22RpR #chsinm2T
Select proper 2 ~3 channels for each TR bin.
Channel#
Inelastic threshold
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Calculation is done using square-root formula target : Based on H-Jet target polarization sign. (sign changes every 500 seconds) beam : Based on beam polarization sign. (sign changes every bunch) Sort with -t (=2mpTR) Apply background correction, RBG: 2~3% (RHIC-beam origin)
BGetargt
etargtN
RLRL
RLRL
R1
1
PA
NNNN
NNNN
Raw-asymmetry calculation of selected elastic events
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AN from RUN4
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• Compare measured AN and expected curve with |r5| =0 2/ndf = 13.4/14.
• Tool itself has a beautiful AN and described from first principle QED explanation at 100 GeV/c.
PLB 638 (2006), 450-454
AN at 100 GeV/c
|r5| =0
2hadNF
emNF
*hadSF
hadNF
emSFN ImA
Set r5 as free parameter: 2/ndf = 11.1/12 |r5| is consistent with
zero at 100GeV/c !
UnpredictableParameterized with r5
Errors on the data points Errors on the data points are statistics only.are statistics only.
Components of Components of systematic uncertaintysystematic uncertainty
- Acceptance asymmetry- Acceptance asymmetry - Background correction- Background correction - Elastic event selection- Elastic event selection
3.9 M events
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AN at 24 GeV/c
Compare measured AN and expected curve with |r5| =0 2/ndf = 35.5/9.
r5 has s dependence ? Not improbable in theory.
Set rSet r55 as free parameter as free parameter
Im rIm r55 = = 0.108 0.108 0.074 0.074
Re rRe r55 = = 0.006 0.006 0.031 0.031
22/ndf = 2.87/7/ndf = 2.87/7
preliminary
|r5|=0
0.8 M events
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Contribution to theoretical understanding of AN
Input: ANpC at 24GeV/c, 100GeV/c
ANpp at 100GeV/c
Prediction:
AN at 24GeV/c
-t (GeV/c)2
AN
Prediction by L. Trueman (BNL)
AN 24GeV/c Data vs. prediction
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Beam polarization results from RUN5
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etargt
beam
etargtetargt
beambeam PP
Yellow beam 3.7M events Blue beam 2.9M events
Raw asymmetries from RUN5
Run5 statistics Yellow: 5.3 M events
Blue: 4.2 M events
AN
ANPtarget
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Total systematic uncertainty (relative) : 2.9%
• Background effect : 2.1 %
Next slide
• Unpolarized fraction of Jet-target : 2.0 %
H2, H2O contamination
Source of systematic uncertainty
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Upper limit of systematic uncertainty from background effects
etargt
target, beam reflect anincrease in background.
beam / target is onlyweakly affected!
eight strips
etargt
beam
TR (MeV)
beam
two strips
4 background
%1.2P
P
beam
BGbeam
Systematic uncertainty from background effects
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P(target) = 92.4% P(target) = 92.4% 1.8% 1.8% stat. sys.stat. sys.P(blue beam) = 49.3% P(blue beam) = 49.3% 1.5% 1.5% 1.4% 1.4%P(yellow beam)= 44.3% P(yellow beam)= 44.3% 1.3% 1.3% 1.3% 1.3%
RUN5 Absolute beam polarization at 100GeV/c
Achieve goal !!Achieve goal !! %2.4beamP
beamP
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Next step towards the best accuracyNext step towards the best accuracy More data in RUN6 !More data in RUN6 !
Yellow: 10.7 M events, Blue 8.2 M events (100GeV/Yellow: 10.7 M events, Blue 8.2 M events (100GeV/cc).).
Expected statistical uncertainty is about 1%. Expected statistical uncertainty is about 1%.
Remaining systematic uncertainty is unpolarized fractioRemaining systematic uncertainty is unpolarized fraction of H-Jet target.n of H-Jet target.
Currently 2% Currently 2%
Improvement is ongoing…..Improvement is ongoing…..
Sunrise at Montauk
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Pol’ H-Jet on CERN COURIER Oct. 2005!courierhttp://www.cerncourier.com/main/article/45/8/15
Thank you!
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pppppppp vs. ppCCppCC in RHIC-ring
H-Jet polarimeter RHIC pC polarimeter
Target Polarized atomic hydrogen gas jet target
Ultra thin carbon ribbon
Event rate 14 Hz 2M Hz
operation continuously 1 minutes every ~2 hours
AN Measured precisely BRP gives Ptarget self-calibration
Limited accuracy needs calibration with H-jet polarimeter
Role Absolute beam pol. measurement,
Calibration for RHIC pC polarimeter
ONLINE monitor,
Fill by Fill beam polarization for experimental groups
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)2 ,1i(
dxdx
dEE
,dxdx
dEE
dix
0x
iGd
dix
0x
iAm
Hamamatsu-type: d1=2.69 Hamamatsu-type: d1=2.69 0.06 0.06 m, m,
d2=1.79 d2=1.79 0.06 0.06 mm
BNL-type: < 0.2 BNL-type: < 0.2 mm
Stopping powerStopping power
Stopping power of particle in silicon (dE/dx)
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two peak spectrumtwo peak spectrum
0E
,0E0Gd
0Am
Hamamatsu-type
Am1 or Gd1 Am2 or Gd2
Hamamatsu-type
Calibration Calibration sources; sources; 241241Am (EAm (EAmAm =5.486 MeV), =5.486 MeV), 148148Gd (EGd (EGdGd = 3.183 MeV) = 3.183 MeV)
2 ,1 ,0i
EGdiCE
EAmiCEiGdEGd
iAmEAm
BNL-type
2 ,1 i
0E
,0EiGd
iAm
d1,d2
E~0.06 keV
E~0.06 keV
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Atomic beam intensity (1.24 0.2)1017 atoms/sec at 75K nozzle temperate
Atomic beam velocity 1560002000 cm/sec
FWHM 0.65cm
Thickness: 1.24**1017/(1.56*0.65*105)
Thickness ~1.21012 atoms/cm2
Holding magnet 120mT
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GeV 9.6sat 25.0
GeV 7.13sat 08.0
0,sIm
0,sRes
GeV 7.13s
GeV 9.6s
2em*had5
had*em5N ImA
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Brief history of recoil detector set up
R
Ch#1
#16
Ch#1
#16
xy
z
RUN 2004 Spring: Commissioning run
2005, 2006
Long physics run
beam Blue beam only Blue/ yellow beam alternatively
-t range (GeV/c)2 0.001 < -t < 0.032 0.0015 < -t < 0.009