Presentation is loading. Please wait.

Presentation is loading. Please wait.

1 X. Zheng, talk at PAVI11, Rome, Italy PVDIS at JLab 6 GeV Xiaochao Zheng (Univ. of Virginia) September 7, 2011 Electroweak Standard Model and PVDIS Physics.

Published byLorena Veronica Holland Modified over 8 years ago

Similar presentations

Presentation on theme: "1 X. Zheng, talk at PAVI11, Rome, Italy PVDIS at JLab 6 GeV Xiaochao Zheng (Univ. of Virginia) September 7, 2011 Electroweak Standard Model and PVDIS Physics."— Presentation transcript:

1 1 X. Zheng, talk at PAVI11, Rome, Italy PVDIS at JLab 6 GeV Xiaochao Zheng (Univ. of Virginia) September 7, 2011 Electroweak Standard Model and PVDIS Physics History: SLAC E122 PVDIS @ 6 GeV Status

2 2 X. Zheng, talk at PAVI11, Rome, Italy Weak charged currents (W ± ) are described by a SU(2) L group with weak isospin T, that couple only to left-handed particles; Weak neutral current (Z 0 ) can not be described by the same SU(2) L group. The neutral currents from SU(2) L is combined with QED [U EM (1)  ] to construct the proper description. This combination is described by the weak mixing angle  W. Lepton neutral currents are given by their vector and axial couplings – determined from their quantum numbers and  W. Electroweak Interaction – The Standard Model In the Standard Model

3 3 X. Zheng, talk at PAVI11, Rome, Italy Testing the EW Standard Model – Running of sin 2  W (expected) figure from K. Kumar, Seattle 2009 EIC Workshop EW talks Also: Qweak (ongoing) PVDIS 12 GeV (planned) Moller 12 GeV (planned)

4 4 X. Zheng, talk at PAVI11, Rome, Italy Parity Violating Electron Scattering Weak Neutral Current (WNC) Interactions at Q 2 << M Z 2 Longitudinally Polarized Electron Scattering off Unpolarized Fixed Targets

5 5 X. Zheng, talk at PAVI11, Rome, Italy Parity Violating Electron Scattering Weak Neutral Current (WNC) Interactions at Q 2 << M Z 2 Longitudinally Polarized Electron Scattering off Unpolarized Fixed Targets parity-violating, cause different e L, e R cross sections lepton charge conjugate-violating, cause difference in e L, e + R cross sections

6 6 X. Zheng, talk at PAVI11, Rome, Italy Weak Neutral Couplings A V V A SLAC DIS-parity proposal (E149) has no “2”, so did the JLab 6GeV proposals (2005 and 2008 update) Different conventions exist, here: now using g A,V follow PDG convention

7 7 X. Zheng, talk at PAVI11, Rome, Italy Parity Violation in Deep Inelastic Scattering For an isoscalar target ( 2 H), structure functions largely simplifies: 0 1 at high x PVDIS can be used to access C 1,2q s

8 8 X. Zheng, talk at PAVI11, Rome, Italy Parity Violation in Deep Inelastic Scattering PVDIS can also be used to access the nucleon structure beyond the simple parton model (it will all depend on precision of the measurement, the current knowledge on C 1,2q and the nucleon PDF, and the kinematics chosen). 6 GeV (moderate precision, two kinematics) – accessing the C 2q 12 GeV (high precision, wide kinematics) – accessing both

9 9 X. Zheng, talk at PAVI11, Rome, Italy The First PVDIS Experiment – SLAC E122 Prescott et al., Phys. Lett. B77, 347 (1978) 37% polarized beam, four energies 16.2- 22.2 GeV, 30-cm LD2 and LH2 targets Spectrometers at 4 o, various E' Q 2 = 1-1.9 GeV 2 Integrating method for gas cherenkov and lead glass shower counters, independently. Deuteron data from 19.4 and 22.2 GeV: A/Q 2 =(-9.5±1.6)x10 -5 (GeV/c) -2 Proton data from 19.4, 22.2 GeV: A/Q 2 =(-9.7±2.7)x10 -5 (GeV/c) -2 ±0.86x10 -5 (stat)±5%(Pb)±3.3%(beam) ±2%(  contamination) ±3%(radiative corrections) sin 2  W =0.20±0.03 compare to two SU(2)xU(1) models

10 10 X. Zheng, talk at PAVI11, Rome, Italy C 2u +C 2d 1.25 1.5 1.75 1.0 0.75 0.5 0.25 0 -0.5 -0.75 C 2u -C 2d - 0.250.50.250- 0.5 SAMPLE C 2u +C 2d 1.25 1.5 1.75 1.0 0.75 0.5 0.25 0 -0.5 -0.75 C 2u -C 2d - 0.250.50.250- 0.5 HAPPEx: H, He G0: H, PVA4: H SAMPLE: H, D Quark Weak Neutral Couplings C 1,2q with recent PVES data without JLab PVDIS data all are 1  limit PDG best fit SLAC/ Prescott PDG best fit (then)

11 11 X. Zheng, talk at PAVI11, Rome, Italy SAMPLE C 2u +C 2d 1.25 1.5 1.75 1.0 0.75 0.5 0.25 0 -0.5 -0.75 C 2u -C 2d - 0.250.50.250- 0.5 without JLab PVDIS data Quark Weak Neutral Couplings C 1,2q with recent PVES data and Qweak all are 1  limit PDG best fit SLAC/ Prescott Qweak in Hall C (2010-): factor of 5 improvement in knowledge of C 1q, New Physics scale from 0.9 to 2 TeV 1 H + e  e’ + p

12 12 X. Zheng, talk at PAVI11, Rome, Italy Parity Violation in Deep Inelastic Scattering For an isoscalar target ( 2 H), structure functions largely simplifies: 0 1 at high x PVDIS: Only way to measure C 2q among current EW experiments

13 13 X. Zheng, talk at PAVI11, Rome, Italy Staff: ~650 User community: ~1300 A CB Beam first delivered in 10/95 In full operation for since 11/97 “parity quality” beam since '99 334 PhDs to date and 249 in progress (~1/3 of US PhDs in Nuclear Physics)

14 14 X. Zheng, talk at PAVI11, Rome, Italy Optics Detectors Side View PVDIS at 6 GeV (JLab E08-011) 100uA, 90% polarized beam, 20- cm LD2 target Ran in Oct-Dec 2009, measured A d at Q 2 =1.1 and 1.9 GeV 2 to 3% and 4% (stat.), resp. Systematics dominated by beam polarization (2%). Grad students: Xiaoyan Deng (UVa M.A.), Diancheng Wang (UVa), Kai Pan (MIT) Postdoc: Ramesh Subedi spokespeople: R. Michaels, P.E. Reimer, X. Zheng

15 15 X. Zheng, talk at PAVI11, Rome, Italy Preshower Shower DIS region, pions contaminate, can't use integrating DAQ. High event rate (~500KHz), exceeds Hall A regular DAQ's Limit (4kHz) segmented (forming 6 or 8 groups) Preshower Shower Gas Cherenkov S1&S2 Discriminator L Discriminator H & & veto Group electron trigger FADCs (partial) fastbus TDCs (all) Scaler-Based Counting DAQ with online (hardware) PID ADC spectrum from regular DAQ, electrons pions

16 16 X. Zheng, talk at PAVI11, Rome, Italy Scaler-Based Counting DAQ with online (hardware) PID DIS region, pions contaminate, can't use integrating DAQ. High event rate (~500KHz), exceeds Hall A regular DAQ's Limit segmented (forming 6 or 8 groups) Data Preshower Shower Gas Cherenkov S1&S2 Discriminator L Discriminator H & & veto Group electron trigger FADCs (partial) fastbus TDCs (all) Preshower Shower ADC spectrum from regular DAQ, with PVDIS electron trigger

17 17 X. Zheng, talk at PAVI11, Rome, Italy Online (Hardware) PID Scaler Based Counting DAQ

18 18 X. Zheng, talk at PAVI11, Rome, Italy PID Performance Horizontal Acceptance [m] Lead Glass Horizontal Acceptance [m] Lead Glass Electron Detection Efficiency Pion Rejection Factor Lead GlassGas CherenkovOverall Electron Efficiency97%96%95% Pion Rejection Factor522001e4 Asymmetry correction due to electron efficiency <(<) 0.5% pion contamination <0.1% (PID analysis done by Kai Pan)

19 19 X. Zheng, talk at PAVI11, Rome, Italy Deadtime Correction Deadtime correction to asymmetry: Methods to study Deadtime: FADC data: direct way to study deadtime, but low statistics. Tagger method: use a tagger signal to mimic physics signal. Software simulation: simulating all the signals and electronics (“HATS”). Deadtime corrections to asymmetry is: ~3% +/- 0.6% (Q 2 =1.1) ~1% +/- 0.2% (Q 2 =1.9) A measured = A phys (1 – deadtime loss) Left HRS gr3 tagger data Right HRS gr4 HATS (simulation) (done by Diancheng Wang)

20 20 X. Zheng, talk at PAVI11, Rome, Italy Deadtime correction to asymmetry: Methods to study Deadtime: FADC data: direct way to study deadtime, but low statistics. Tagger method: use a tagger signal to mimic physics signal. Software simulation: simulating all the signals and electronics (“HATS”). A measured = A phys (1 – deadtime loss) HATS (Hall A Timing Simulation, developed by Diancheng Wang): Very generic, easy to adopt, available for all collaborators. Deadtime Correction (done by Diancheng Wang)

21 21 X. Zheng, talk at PAVI11, Rome, Italy Asymmetry Analysis Statistical quality of data (blinded pair-wise asymmetry): Q 2 =1.1 Q 2 =1.9 done in parallel by Diancheng Wang (completed), and Kai Pan (on-going) Same methods as in HAPPEX-III and PREX, but beam regression/dithering corrections much smaller (relatively).

22 22 X. Zheng, talk at PAVI11, Rome, Italy EM Radiative Corrections Resonance events contribute to 15 %? Calculations for PV asymmetry in the resonance region are difficult, and have not been proven by data (only G0 had limited data – 15%? – in the Delta region) Monte Carlo Simulation being performed by Diancheng Wang Q 2 =1.1 Q 2 =1.9

23 23 X. Zheng, talk at PAVI11, Rome, Italy Resonance events contribute to 15 % No reliable way to calculate PV asymmetry at low W and Q2 Almost impossible to calculate resonance structure 3 4 5 7 3 4 5 7 Measured resonance PV asymmetries (10-15% stat.) Calculations of RES asymmetries being performed by 3 theory groups “Toy” models using unpolarized F  1 (res)/F  1 (DIS), implying duality (or not) Goal: control systematic error due to Radiative corrections to below 1% Monte Carlo Simulation EM Radiative Corrections Q 2 =1.1 Q 2 =1.9 being performed by Diancheng Wang

24 24 X. Zheng, talk at PAVI11, Rome, Italy Three theory calculations (cover all kinematic area needed by Rad.Corr): Lee/Sato: Delta(1232) Current: D=n+p On-going: with wavefunctions – will be available for publication M. Gorshteyn (Indiana) whole resonance isospin rotation p -> n Stan Brodsky (meeting on hadronic physics in Weihai, China, Aug2011) whole resonance need to find manpower to do it From our side, machinery to incorporate these calculations into the simulation are ready, but need thorough checks EM Radiative Corrections being performed by Diancheng Wang

25 25 X. Zheng, talk at PAVI11, Rome, Italy Error Budget not included below likely to be (slightly) smaller

26 26 X. Zheng, talk at PAVI11, Rome, Italy SAMPLE C 2u +C 2d 1.25 1.5 1.75 1.0 0.75 0.5 0.25 0 -0.5 -0.75 C 2u -C 2d - 0.250.50.250- 0.5 Quark Weak Neutral Couplings C 1,2q with recent PVES data and Qweak without JLab data all are 1  limit PDG best fit SLAC/ Prescott

27 27 X. Zheng, talk at PAVI11, Rome, Italy Quark Weak Neutral Couplings C 1,2q with recent PVES data and Qweak with JLab 6 GeV all are 1  limit SAMPLE SLAC/ Prescott C 2u +C 2d 1.25 1.5 1.75 1.0 0.75 0.5 0.25 0 -0.5 -0.75 C 2u -C 2d - 0.20.40.20- 0.4 PVDIS in Hall A (Oct-Dec 2009): potential to improve C 2q knowledge if hadronic effects are small.

28 28 X. Zheng, talk at PAVI11, Rome, Italy Summary and Perspectives PVDIS is sensitive to the quark neutral weak coupling C 2q and the structure of the nucleon A PVDIS experiment using the 6 GeV beam was completed in 2009, analysis near final Radiative corrections are taking longer than expected, but is very worth the effort: – control of systematics of the final analysis – deserve a separate publication – reliable information for other experiments Also serves as an exploratory step for the 11 GeV PVDIS program – see P. Reimer's talk

Download ppt "1 X. Zheng, talk at PAVI11, Rome, Italy PVDIS at JLab 6 GeV Xiaochao Zheng (Univ. of Virginia) September 7, 2011 Electroweak Standard Model and PVDIS Physics."

Similar presentations

Robert Michaels PREX at Trento PREX Workshop 09 Physics Interpretation of PREX 208 Pb E = 1 GeV, electrons on lead Elastic Scattering Parity Violating.

Robert Michaels PREX at Trento PREX Workshop 09 Physics Interpretation of PREX 208 Pb E = 1 GeV, electrons on lead Elastic Scattering Parity Violating.
Robert Michaels HAMC Hall A Analysis Workshop 09 C HAMC = Hall A Monte Carlo ROOT / C++ Design Somewhat like SAMC & genercone For HRS only. Uses LeRose.

Robert Michaels HAMC Hall A Analysis Workshop 09 C HAMC = Hall A Monte Carlo ROOT / C++ Design Somewhat like SAMC & genercone For HRS only. Uses LeRose.
Jin Huang PhD Candidate, MIT For MENU 2010 May 31, Williamsburg.

Jin Huang PhD Candidate, MIT For MENU 2010 May 31, Williamsburg.
1 First Measurement of the Structure Function b 1 on Tensor Polarized Deuteron Target at HERMES A.Nagaitsev Joint Institute for Nuclear Research, Dubna.

1 First Measurement of the Structure Function b 1 on Tensor Polarized Deuteron Target at HERMES A.Nagaitsev Joint Institute for Nuclear Research, Dubna.
MeAsurement of F 2 n /F 2 p, d/u RAtios and A=3 EMC Effect in Deep Inelastic Electron Scattering Off the Tritium and Helium MirrOr Nuclei J. Gomez for.

MeAsurement of F 2 n /F 2 p, d/u RAtios and A=3 EMC Effect in Deep Inelastic Electron Scattering Off the Tritium and Helium MirrOr Nuclei J. Gomez for.
The Strange Form Factors of the Proton and the G 0 Experiment Jeff Martin University of Winnipeg Collaborating Institutions Caltech, Carnegie-Mellon, William&Mary,

The Strange Form Factors of the Proton and the G 0 Experiment Jeff Martin University of Winnipeg Collaborating Institutions Caltech, Carnegie-Mellon, William&Mary,
Recent Electroweak Results from the Tevatron Weak Interactions and Neutrinos Workshop Delphi, Greece, 6-11 June, 2005 Dhiman Chakraborty Northern Illinois.

Recent Electroweak Results from the Tevatron Weak Interactions and Neutrinos Workshop Delphi, Greece, 6-11 June, 2005 Dhiman Chakraborty Northern Illinois.
DESY PRC May 10, 20071 Beyond the One Photon Approximation in Lepton Scattering: A Definitive Experiment at DESY for J. Arrington (Argonne) D. Hasell,

DESY PRC May 10, Beyond the One Photon Approximation in Lepton Scattering: A Definitive Experiment at DESY for J. Arrington (Argonne) D. Hasell,
Parity-Violating Electron Scattering Jeff Martin University of Winnipeg.

Parity-Violating Electron Scattering Jeff Martin University of Winnipeg.
Study of two pion channel from photoproduction on the deuteron Lewis Graham Proposal Phys 745 Class May 6, 2009.

Study of two pion channel from photoproduction on the deuteron Lewis Graham Proposal Phys 745 Class May 6, 2009.
Parity Violation in Electron Scattering Emlyn Hughes SLAC DOE Review June 2, 2004 *SLAC E122 *SLAC E158 *FUTURE.

Parity Violation in Electron Scattering Emlyn Hughes SLAC DOE Review June 2, 2004 *SLAC E122 *SLAC E158 *FUTURE.
Big Electron Telescope Array (BETA) Experimental Setup Expected Results Potential Physics from SANE Electron scattering provides a powerful tool for studying.

Big Electron Telescope Array (BETA) Experimental Setup Expected Results Potential Physics from SANE Electron scattering provides a powerful tool for studying.
A U.S. Department of Energy Office of Science Laboratory Operated by The University of Chicago Argonne National Laboratory Office of Science U.S. Department.

A U.S. Department of Energy Office of Science Laboratory Operated by The University of Chicago Argonne National Laboratory Office of Science U.S. Department.
Spin-Flavor Decomposition J. P. Chen, Jefferson Lab PVSA Workshop, April 26-27, 2007, Brookhaven National Lab  Polarized Inclusive DIS,  u/u and  d/d.

Spin-Flavor Decomposition J. P. Chen, Jefferson Lab PVSA Workshop, April 26-27, 2007, Brookhaven National Lab  Polarized Inclusive DIS,  u/u and  d/d.
New results on SIDIS SSA from JLab  Physics Motivation  Double spin asymmetries  Single Spin Asymmetries  Future measurements  Summary H. Avakian.

New results on SIDIS SSA from JLab  Physics Motivation  Double spin asymmetries  Single Spin Asymmetries  Future measurements  Summary H. Avakian.
Compton polarimetry for EIC Jefferson Lab Compton Polarimeters.

Compton polarimetry for EIC Jefferson Lab Compton Polarimeters.
V.L. Kashevarov. Crystal Collaboration Meeting, Mainz, 21-23 September 2008 Photoproduction of    on protons ► Introduction ► Data analysis.

V.L. Kashevarov. Crystal Collaboration Meeting, Mainz, September 2008 Photoproduction of    on protons ► Introduction ► Data analysis.
1 X. Zheng, University of Virginia, Talk at OCPA7, August 1-5, Kaotsiung, Taiwan Recent Results from Parity Violation Electron Scattering Experiments at.

1 X. Zheng, University of Virginia, Talk at OCPA7, August 1-5, Kaotsiung, Taiwan Recent Results from Parity Violation Electron Scattering Experiments at.
Determining Strangeness Quark Spin in Neutrino-Nucleon Scattering at J-PARC T.-A. Shibata (Tokyo Tech) in collaboration with N. Saito (Kyoto Univ) and.

Determining Strangeness Quark Spin in Neutrino-Nucleon Scattering at J-PARC T.-A. Shibata (Tokyo Tech) in collaboration with N. Saito (Kyoto Univ) and.
Duality: Recent and Future Results Ioana Niculescu James Madison University Hall C “Summer” Workshop.

Duality: Recent and Future Results Ioana Niculescu James Madison University Hall C “Summer” Workshop.

Similar presentations

Ads by Google