new results from the g0 experiment elizabeth beise, university of maryland 1 cipanp 2009 e. beise, u...
Post on 19-Dec-2015
217 views
TRANSCRIPT
![Page 1: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/1.jpg)
New Results from the G0 Experiment
2
e e pp
Elizabeth Beise, University of Maryland
1CIPANP 2009 E. Beise, U Maryland
Parity-violating electron scattering from the nucleon Hydrogen and deuterium targets Strange quark contributions to electromagnetic form
factors Axial-vector N-D transition Weak interaction contribution to pion photoproduction Transverse beam spin asymmetries
![Page 2: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/2.jpg)
Spatial distribution of s-quarks in the nucleon
Access via form factors: contribution to nucleon charge and magnetism
E. Beise, U Maryland
EM charge Weak charge
e 1 1 + 4 sin2W
u +2/3 1 8/3 sin2W
d 1/3 1 + 4/3 sin2W
s 1/3 1 + 4/3 sin2W
sin2qW = 0.2312
Electromagnetic: NqqeNG q
pspdpup GGGG ,,,,
3
1
3
2
and use
nsps
nupd
ndpu
GG
GG
GG
,,
,,
,,
charge
symmetry
pZnp
Wps
pZnpW
pd
pZpW
pu
MEMEMEME
MEMEMEME
MEMEME
GGGG
GGGG
GGG
,,,2,
,,,2,
,,2,
,,,,
,,,,
,,,
sin41
sin42
sin43
CIPANP 2009 2
courtesy of JLab
![Page 3: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/3.jpg)
Parity Violating elastic e-N scattering
E. Beise, U Maryland 3
polarized electrons, unpolarized target
2
e e pp
unpol
AMEF
LR
LR AAAQGA
224
2
forward, H
e.g.: G0 at 687 MeV (Q2~ 0.6 GeV2)
d
B
F
eA
sM
sE
ddd
BBB
FFF
d
B
F
a
a
a
G
G
G
aaa
aaa
aaa
A
A
A
0
0
0
321
321
321
a0 (ppm) a1 (ppm) a2 (ppm) a3 (ppm)
AF -24 80 43 3
AB -39 22 63 12
Ad -50 19 13 14
back, H
back, D
CIPANP 2009
![Page 4: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/4.jpg)
Summary of data at Q2 =0.1 GeV2
E. Beise, U Maryland 5
(thanks to K. Pashke, R. Young)
Solid ellipse: K. Pashke, private comm, [same as J. Liu, et al PRC 76, 025202 (2007)],uses theoretical constraintson the axial form factor
Dashed ellipse: R. Young ,et al.PRL 97 (2006) 102002, does not constrain GA
CIPANP 2009
1003
1contrib%
pE,M
sE,M
G
G
2007 Long Range Plan
note: Placement of SAMPLE band on the graph depends on choice for GA
![Page 5: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/5.jpg)
New Results from PVA4
Q2 = 0.22 GeV2, q = 145°Ameas= -17.23 ± 0.82 ± 0.89 ppm
Anvs = -15.87 ± 1.22 ppm (uses theoretical constraint ofZhu et al., for the axial FF)
S. Baunack et al., PRL 102 (2009) 151803
11.011.014.0
019.0038.0050.0
sM
sE
G
G
% contribution to proton:electric: -3.0 ± 2.5 %magnetic: +2.9 ± 3.2 %
CIPANP 2009 6E. Beise, U Maryland
![Page 6: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/6.jpg)
Quasielastic PV (ee’) in Deuterium
E. Beise, U Maryland
d
nnppd
AAA
Parity conserving nuclear corrections to the asymmetry are generally small, 1-3% at backward angles. Calculation provided to us by R. Schiavilla includes final state interactions and 2-body effects.
Use Quasielastic scattering from deuterium as lever arm for GAe(Q2)
(Diaconescu, Schiavilla + van Kolck, PRC 63 (2001) 044007)
Schiavilla, Carlson + Paris, PRC 67 (2003) 032501
See also Hadjimichael, Poulis + Donnelly, PRC45 (1992) 2666 Schramm + Horowitz, PRC 49 (1994) 2777 Kuster + Arenhovel, NPA 626 (1997) 911 Liu, Prezeau, + Ramsey-Musolf,
PRC 67 (2003) 035501
CIPANP 2009 7
![Page 7: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/7.jpg)
Deuterium model comparison to cross section data
E. Beise, U Maryland 8CIPANP 2009
data from:S. Dytman, et al., Phys. Rev. C 38, 800 (1988)B. Quinn, et al., Phys. Rev. C 37, 1609 (1988)
calculation from R. Schiavillasee alsoR.S., J. Carlson, and M. Paris, PRC70, 044007 (2004).
• AV18 NN potential• relativistic kinematics• J.J. Kelly fit to nucleonform factors
![Page 8: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/8.jpg)
2-body effects in the D asymmetry
E. Beise, U Maryland 9CIPANP 2009
leading termof the asymmetry
axial formfactor coefficienthas ~15% correction from2-body effects
calculations from R. Schiavilla
![Page 9: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/9.jpg)
E. Beise, U Maryland
Jefferson Laboratory
E ~ 6 GeVContinuous Polarized Electron Beam
> 100 mAup to 85% polarizationconcurrent to 3 Halls
upgrade to 12 GeVnow underway
A C
G0
CIPANP 2009 10
![Page 10: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/10.jpg)
The G0 experiment at JLAB
E. Beise, U Maryland
• Forward and backward angle PV e-p elastic and e-d (quasielastic) in JLab Hall C
• superconducting toroidal magnet 22 (GeV/c)0.11.0~
,
Q
GGG eA
sM
sE
range over
separatedand
• scattered particles detected in segmented scintillator arrays in spectrometer focal plane
• custom electronics count and process scattered particles at > 1 MHz
• forward angle data published
2005
• backward angle data: 2006-2007
CIPANP 2009 11
![Page 11: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/11.jpg)
G0 Apparatus
E. Beise, U Maryland
One octant’s scintillator array
20 cm LH2 Target
CIPANP 2009 12
![Page 12: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/12.jpg)
G0 Forward angle Results
E. Beise, U Maryland
D.S. Armstrong et al., PRL 95 (2005) 092001
NVSphysV
pE
pM
pE
F
sM
sE AA
RG
GG
QGGG
)0(
22
2 1
24
EM form factors: J.J.Kelly, PRC 70, 068202 (2004)
CIPANP 2009 13
HAPPEX-3
G0 Backward
![Page 13: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/13.jpg)
G0 Backward Angle
E. Beise, U Maryland
Electron detection: q = 108°, H and D targets Add Cryostat Exit Detectors (CED) to define electron trajectoryAerogel Cerenkov detector for p/e separation (pp < 380 MeV/c)1 scaler per channel FPD/CED pair (w/ and wo/ CER)
Ee (MeV) Q2 (GeV2)
362 0.23
686 0.62
Common Q2 with HAPPEX-III and PVA4
CIPANP 2009 14
![Page 14: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/14.jpg)
362 MeV
Hydrogen raw electron data
Hz/uA
d
CIPANP 200915E. Beise, U Maryland
octant # (azimuthal distribution)
blinded raw asymmetries (ppm)
687 MeV Hz/uA
![Page 15: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/15.jpg)
362 MeV
687 MeV
Deuterium raw electron datablinded raw asymmetries (ppm) Hz/uA
d
d
Hz/uA
CIPANP 200916E. Beise, U Maryland
octant # (azimuthal distribution)
![Page 16: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/16.jpg)
Blinding Factors
× 0.75-1.25
H, D Raw Asymmetries, Ameas
CorrectionsScaler counting correction
Rate corrections from electronicsHelicity-correlated corrections
Background correctionsBeam polarization
Other measurementsA(Ei , Q2)
Q2 Determination(from simulation)
Analysis Strategy
H, D Physics Asymmetries, Aphys
UnblindElectromagnetic
radiative corrections(from simulation)
P= 0.8578 ± 0.0007 (stat) ± .014 (sys)
< 0.1 ppm
CIPANP 2009 17E. Beise, U Maryland
eA
sM
sE GGG ,,
4% on asymmetry
~10-50 ppm
± 0.003 GeV2
< 1% of Aphys
![Page 17: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/17.jpg)
Rate Corrections
H 687 MeV
H 362 MeV
Deadtimes (%)
Correct the yields for random coincidences and electronic deadtime prior to asymmetry calculation
randoms small except for D-687
(due to higher pion rate). Direct
(out-of-time) measurements made for D-687
Validated with simulation of the complete electronics chain
CIPANP 2009 18E. Beise, U Maryland
Data set
Correction to Yield (%)
AsymmetryCorrection (ppm)
systematic error (ppm)
H 362 6 0.3 0.06
H 687 7 1.4 0.17
D 362 13 0.7 0.2
D 687 9 6 1.8
![Page 18: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/18.jpg)
Backgrounds: Field Scans
Use simulation shapes to help determine dilution factors
Main contributions are Aluminum windows for H runs, pions for D runs.
D-687CED 7, FPD 13
CIPANP 2009 19E. Beise, U Maryland
Data set Correction to Yield (%)
Asymmetry Correction (ppm)
systematic error (ppm)
H 362 13.2 0.50 0.37
H 687 13.3 0.13 0.78
D 362 0.5 0.06 0.02
D 687 4.5 2.03 0.37
![Page 19: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/19.jpg)
“Physics” Asymmetries
E. Beise, U Maryland 20CIPANP 2009
Data Set Asymmetry Stat Sys pt Global
H 362 -11.01 0.84 0.26 0.37
D 362 -16.50 0.79 0.39 0.19
H 687 -44.76 2.36 0.80 0.72
D 687 -54.03 3.22 1.91 0.62
H: systematic uncertainties dominated by beam polarizationD: rate corrections also contribute to uncertainty
all entries in ppm
![Page 20: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/20.jpg)
Asymmetries to Form Factors
E. Beise, U Maryland 21CIPANP 2009
0s s e
phys E E M M A AA a a G a G a G
Electromagnetic form factors: Kelly (PRC 70 (2004))also used in Schiavilla calculation for Ddoes not include new low Q2 data from BLAST or JLabeventually use new fits (Arrington & Melnitchouk for p, Arrington & Sick for n)differences in fits become 0.5 – 1 % in the asymmetry
Two-boson exchange corrections to Asymmetry: 0.5 -1.2%(see Tjon, Blunden & Melnitchouk, arXiv:0903.2759v1) includes D contributions, calculation for n in progress
11
1Z Z
meas Born BornA A A
![Page 21: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/21.jpg)
Form Factor Results Using interpolation of G0 forward measurements
G0 forward/backwardPVA4: PRL 102 (2009)Q2 = 0.1 GeV2 combined
Global uncertainties
G0 forward/backward
SAMPLE
Zhu, et al. PRD 62 (2000)
CIPANP 2009 22E. Beise, U Maryland
Calculations: Leinweber, et al. PRL 97 (2006) 022001 Leinweber, et al. PRL 94 (2005) 152001 Wang, et al arXiv:0807.0944 (Q2 = 0.23 GeV2) Liu, et al, arXiv:0903.3232v1
![Page 22: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/22.jpg)
Anapole form factor FgA(Q2)
E. Beise, U Maryland 23
2. FA(Q2) is flat
(Riska, NPA 678 (2000) 79)
1. FA(Q2) is like GA(Q2)
3. FA(Q2) ~ 1 + Q2
(Maekawa, Viega, van Kolck, PLB 488 (2000) 167) – (shown here are the most extreme set of model parameters)
Three scenarios
CIPANP 2009
![Page 23: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/23.jpg)
Summary
E. Beise, U Maryland
• first look at Q2 behavior of strangeness contribution to proton’s charge and magnetism: continue to be small
• first results for the Q2 behavior of the anapole contributions to the axial form factor
• other results to come soon from G0:
transverse beam spin asymmetries (2-g exchange) in H and D
PV in the N-D transition: axial transition f.f.
PV asymmetry in inclusive -p production
24CIPANP 2009
![Page 24: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/24.jpg)
26
The G0 Collaboration (backward angle run)
Caltech, Carnegie Mellon, William and Mary, Hendricks College, Orsay, Grenoble, LA Tech, NMSU, Ohio, JLab, TRIUMF, Illinois, Kentucky, Manitoba, Maryland, Winnipeg, Zagreb, Virginia Tech,
Yerevan Physics Institute
CIPANP 2009 E. Beise, U Maryland
![Page 25: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/25.jpg)
Scaler Counting Issue with Electronics
Electronics sorts detector coincidences (CEDi and FPDj) into separate scaler channels FPGA-based system in North American
electronics (4 octants) Because of error in FPGA programming, two
short (~3 ns) pulses could be sent to scaler in < 7 ns ~ 1% of events have such miscounts
Such pulse pairs can cause scaler to drop or add bits Detailed simulation of ASIC with propagation
delays between (flip flop) elements
Effect on asymmetry is <0.01 Aphys
Test by cutting data; compare with French octants
Data
Simulation
CIPANP 2009 29E. Beise, U Maryland
![Page 26: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/26.jpg)
Preliminary Inelastic Asymmetries• Background, radiative corrections not included
OUT + IN = 0.07 ± 5.1 ppm
OUT + IN = -9.9 ± 10.5 ppm
CIPANP 2009 40E. Beise, U Maryland
![Page 27: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/27.jpg)
Preliminary Pion Asymmetries Constrain small photoproduction asymmetry “dD”
working on systematic uncertainties (~ 0.5 ppm)
(OUT – IN)/2 = -0.56 ± 1.03 ppmOUT + IN = 3.84 ± 2.15 ppm
CIPANP 2009 41E. Beise, U Maryland
![Page 28: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/28.jpg)
Preliminary Transverse Asymmetries Background, radiative corrections not included
– need theory for em radiative corrections
H 362 MeV
H 687 MeV
D 362
CIPANP 2009 42E. Beise, U Maryland
![Page 29: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/29.jpg)
Determining Form Factors Interpolation of G0 forward angle measurement
CIPANP 2009 43E. Beise, U Maryland
![Page 30: New Results from the G0 Experiment Elizabeth Beise, University of Maryland 1 CIPANP 2009 E. Beise, U Maryland Parity-violating electron scattering from](https://reader030.vdocument.in/reader030/viewer/2022032703/56649d2f5503460f94a06b4d/html5/thumbnails/30.jpg)
New Results from G0: Parity Violating Electron Scattering at JLab Elizabeth Beise, University of Maryland
44CIPANP 2009 E. Beise, U Maryland
Hydrogen and deuterium targets: access to strange quark contributions to electromagnetic form factors
Proton’s axial form factor, as seen by electrons
PV asymmetries (10-50 ppm) measured at Q2 = 0.22, 0.63 GeV2
blinded raw asymmetries (ppm) from hydrogen, Q2 = 0.22 GeV2