Kijun Park Univ. of South Carolina Kijun Park Univ. of South Carolina Axial Form Factor Physics at CLAS May. 30, 2008 HSWG meeting Electroproduction of.

Slides:

Advertisements

Similar presentations

The Spin Structure of 3 He and the Neutron at Low Q 2 : A Measurement of the Extended GDH Integral Vincent Sulkosky (for the JLab Hall A Collaboration)

Advertisements

Target Fragmentation studies at JLab M.Osipenko in collaboration with L. Trentadue and F. Ceccopieri, May 20,SIR2005, JLab, Newport News, VA CLAS Collaboration.

Richard Lindgren - UVa Cole Smith - UVa Khem Chirapatimol - Chiang Mai University E04- Status Report Precision Measurements of π 0 Electroproduction near.

Some questions on quantum anomalies Roman Pasechnik Moscow State University, Moscow & Bogoliubov Lab of Theoretical Physics, JINR, Dubna 46-th Cracow School.

Study of e + e  collisions with a hard initial state photon at BaBar Michel Davier (LAL-Orsay) for the BaBar collaboration TM.

Electromagnetic Sum Rules and Low Energy Theorems Barbara Pasquini, Dieter Drechsel, L. T., Sabit Kamalov Pavia, Mainz, Dubna - the Gerasimov-Drell-Hearn.

Ralf W. Gothe Nucleon Transition Form Factors Beijing Transition Form Factors at JLab: The Evolution of Baryonic Degrees of Freedom Ralf W. Gothe.

T.C. Jude D.I. Glazier, D.P. Watts The University of Edinburgh Strangeness Photoproduction At Threshold Energies.

Measurements of F 2 and R=σ L /σ T on Deuteron and Nuclei in the Nucleon Resonance Region Ya Li January 31, 2009 Jlab E02-109/E (Jan05)

Quark Helicity Distribution at large-x Collaborators: H. Avakian, S. Brodsky, A. Deur, arXiv: [hep-ph] Feng Yuan Lawrence Berkeley National Laboratory.

Vincent Sulkosky Massachusetts Institute of Technology Spokespeople: J.-P. Chen, A. Deur, F. Garibaldi Hall A Collaboration Meeting December 10 th, 2012.

Chiral condensate in nuclear matter beyond linear density using chiral Ward identity S.Goda (Kyoto Univ.) D.Jido （ YITP ） 12th International Workshop on.

Probe resolution (GeV) N π,  Q 2 =12 GeV 2 Q 2 =6 GeV 2 The study of nucleon resonance transitions provides a testing ground for our understanding.

Exclusive π 0 electroproduction in the resonance region. Nikolay Markov, Maurizio Ungaro, Kyungseon Joo University of Connecticut Hadron spectroscopy meeting.

Single pion electroproduction at CLAS Kijun Park Univ. of South Carolina Kijun Park Univ. of South Carolina 1 st Student Conference 702D Aug.

Deeply Virtual Compton Scattering on the neutron Malek MAZOUZ LPSC Grenoble EINN 2005September 23 rd 2005.

Shape of Hadrons Athens April 2006 Real Photon Experiments  M. Kotulla MAMI and LEGS magnetic dipole moment of the   

Dynamical study of N-  transition with N(e,e'  ) Shin Nan Yang Department of Physics National Taiwan University Collaborators: G.Y. Chen, J.C. Chen (NTU)

Nucleon Polarizabilities: Theory and Experiments

Measurements with Polarized Hadrons T.-A. Shibata Tokyo Institute of Technology Aug 15, 2003 Lepton-Photon 2003.

Beijing, Sept 2nd 2004 Rachele Di Salvo Beam asymmetry in meson photoproduction on deuteron targets at GRAAL MENU2004 Meson-Nucleon Physics and the Structure.

Measuring the Spin Structure of 3 He and the Neutron at Low Q 2 Timothy Holmstrom College of William and Mary For the Jefferson Lab Hall A Collaboration.

Meson Photoproduction with Polarized Targets   production a)  0 at threshold b) Roper and P 11 (1710)   production a) S 11 -D 13 phase rotation.

Thomas Jefferson National Accelerator Facility PAC-25, January 17, 2004, 1 Baldin Sum Rule Hall C: E Q 2 -evolution of GDH integral Hall A: E94-010,

JLAB Program of Baryon Form Factors at High Momentum Transfer Current Status and Future Directions. Paul Stoler Rensselaer Polytechnic Institute Milos.

Marialaura Colantoni1 Workshop on Hadron Structure and Spectroscopy Marialaura Colantoni* on behalf of the COMPASS coll. *Universita’ del Piemonte.

E97-110: Small Angle GDH Experimental Status Report E97-110: Small Angle GDH Experimental Status Report Vincent Sulkosky Massachusetts Institute of Technology.

Probe resolution (GeV) N π,  Q 2 =12 GeV 2 Q 2 =6 GeV 2 The study of nucleon resonance transitions provides a testing ground for our understanding.

Single Pion Electroproduction Kijun Park Oct. 16, 2008 Hall-B Thomas Jefferson National Accelerator Facility.

Vincent Sulkosky Massachusetts Institute of Technology Spokespeople: J.-P. Chen, A. Deur, F. Garibaldi Hall A Collaboration Meeting June 13 th, 2013 E97-110:

Georgie Mbianda 1 for the Baryon (E01-002) Collaboration 1 University of the Witwatersrand, Johannesburg Exclusive Electroproduction of π + and η mesons.

Tensor and Flavor-singlet Axial Charges and Their Scale Dependencies Hanxin He China Institute of Atomic Energy.

A partial wave analysis of pion photo- and electroproduction with MAID  introduction  a dynamical approach to meson electroproduction  the unitary isobar.

Departamento de Física Teórica II. Universidad Complutense de Madrid José R. Peláez ON THE NATURE OF THE LIGHT SCALAR NONET FROM UNITARIZED CHIRAL PERTURBATION.

The Fubini-Furlan-Rossetti sum rule. LET.

E97-110: Small Angle GDH Experimental Status Report E97-110: Small Angle GDH Experimental Status Report Vincent Sulkosky Massachusetts Institute of Technology.

Transition region (1) Transition region (2) Scaling (s-, Q 2,…) (3) Generalized Parton Distribution (4) Transition Distribution Amplitude (5) …

Hall C Summer Workshop August 6, 2009 W. Luo Lanzhou University, China Analysis of GEp-III&2γ Inelastic Data --on behalf of the Jefferson Lab Hall C GEp-III.

Probe resolution (GeV) N π,  Q 2 =12 GeV 2 Q 2 =6 GeV 2 The study of nucleon resonance transitions provides a testing ground for our understanding.

1.More than 98% of dress quark masses as well as dynamical structure are generated non-perturbatively through DCSB (higgs mech.

Meson Form Factors and Reaction Mechanism Tanja Horn Hall C Summer Meeting 4 August 2008.

Status Report of Single Pion Electroproduction in the Deep Inelastic Scattering Region Kijun Park Univ. of South Carolina Kijun Park Univ. of South Carolina.

Kijun Park Univ. of South Carolina Kijun Park Univ. of South Carolina Aug. 30, 2008 Hadron Spectroscopy Physics Working Group Meeting Electroproduction.

Timelike Compton Scattering at JLab

seminar at Academia Sinica

K. Park What we can learn from this experiment ? NSTAR 2013 Workshop

Cross section of the process

Precision Measurement of the Electroproduction of p0 Near Threshold:

Wide Angle Compton Scattering

γ*p →Δ(1232) →πN Results from CLAS

October 12, Tallahassee, FL

National Taiwan University

L*(1520) Photoproduction off Proton and Neutron from CLAS eg3 data set

Can We Learn Quark Orbital Motion from SSAs?

Selected Physics Topics at the Electron-Ion-Collider

Study of Strange Quark in the Nucleon with Neutrino Scattering

Search for f-N Bound State in Jefferson Lab Hall-B

Measurement of Generalized Form Factors near the Pion Threshold

R.R. Silva, M.E. Bracco, S.H. Lee, M. Nielsen

Electroproduction of φ Mesons in CLAS

The Operator Product Expansion Beyond Perturbation Theory in QCD

Reconsideration of the

New Results on 0 Production at HERMES

Study of e+e collisions with a hard initial state photon at BaBar

Experiment (Jlab Exp : CLAS eg3)

Hall C Summer Meeting 4 August 2008

Scaling Study of the L-T Separated p(e,e’π+)n Cross Section at Large Q2 Tanja Horn Jefferson Lab APS/DNP meeting 2007 DNP07 October 2007.

Studying baryon resonances by meson electroproduction at high Q2

Motivation: See recent talk by Braun at Jlab 12 GeV upgrade Workshop

Semi-inclusive hadronic B decays at the endpoint

Presentation transcript:

Kijun Park Univ. of South Carolina Kijun Park Univ. of South Carolina Axial Form Factor Physics at CLAS May. 30, 2008 HSWG meeting Electroproduction of soft pions at high Q 2

In historically, Threshold pion photo- and electroproduction is the very old subject that has been receiving continuous attention from both EXP. and THEO. sides for many years. Pion mass vanishing approximation in Chiral Symmetry allows us to make exact prediction for threshold cross section known as LET The LET established the connection between charged pion electroproduction and axial form factor in nucleon. Therefore, It is quiet interesting to extracting Axial Form Factor which is dominated by S- wave transverse multipole E0+ in LCSR In historically, Threshold pion photo- and electroproduction is the very old subject that has been receiving continuous attention from both EXP. and THEO. sides for many years. Pion mass vanishing approximation in Chiral Symmetry allows us to make exact prediction for threshold cross section known as LET The LET established the connection between charged pion electroproduction and axial form factor in nucleon. Therefore, It is quiet interesting to extracting Axial Form Factor which is dominated by S- wave transverse multipole E0+ in LCSR Axial Form Spectroscopy Meeting May. 30, 2008 K. Park

Perspective of soft pion in terms of Q2 at threshold Low-Energy Theorem (LET) for Q 2 =0 Restriction to the charged pion χ ral symmetry + current algebra for electroproduction Re-derived LETs Current algebra + PCAC χ ral perturbation theory pQCD factorization methods s 1970s Kroll-Ruderman Nambu, Laurie, Schrauner Vainshtein, Zakharov 1990s Scherer, Koch Brodsky, Lepage, Efremov, Radyunshkin, Pobylitsa, Polyakov, Strikman, et al Axial Form Spectroscopy Meeting May. 30, 2008 K. Park

LCSR [Light Cone Sum Rule]: An advantage of study because soft contribution to hadron form factor can be calculated in terms of DA ’ s that enter pQCD calculation without other nonperturbative parameters. Constructed relating the amplitude for the radiative decay of Σ +(p γ ) to properties of the QCD vacuum in alternating magnetic field. New technique : the expansion of the standard QCD sum rule approach to hadron properties in alternating external fields. LCSR [Light Cone Sum Rule]: An advantage of study because soft contribution to hadron form factor can be calculated in terms of DA ’ s that enter pQCD calculation without other nonperturbative parameters. Constructed relating the amplitude for the radiative decay of Σ +(p γ ) to properties of the QCD vacuum in alternating magnetic field. New technique : the expansion of the standard QCD sum rule approach to hadron properties in alternating external fields. Axial Form Spectroscopy Meeting May. 30, 2008 K. Park

Correlation Function Axial Form Spectroscopy Meeting May. 30, 2008 K. Park Light Cone Sum Rule V. M. Braun, arXiv: v1 Light Corn Sum Rule Reproduce LET for Q 2 ~ 1GeV 2 Reproduce pQCD for Q 2 →∞ 2007 V. Braun Extended for near pion threshold regions

LCSR- based model for the Q 2 dependence of the electric, longitudinal Partial Waves at threshold [GeV -1 ] Axial Form Spectroscopy Meeting May. 30, 2008 K. Park MAID07 Arnt et al.

Differential Cross section Axial Form Spectroscopy Meeting May. 30, 2008 K. Park No D-wave contribution

Legendre moments vs. Multipoles Structure Functions vs. Legendre moments Partial Wave Series with Legendre Polynomials from S.F. Sensitive ! Insensitive ! Axial Form Spectroscopy Meeting May. 30, 2008 K. Park

Legendre moments vs. Form Factors Axial Form Spectroscopy Meeting May. 30, 2008 K. Park V.Braun arXiv:

VariableUnitRange# BinWidth Q2Q2 GeV ~ 4.165various WGeV 1.11 ~ cosθ * π -1.0~ φ *πφ *π Deg. 0. ~ Kinematical Coverage * E=5.754GeV, LH2 target (unpol.) * Oct Jan Axial Form Spectroscopy Meeting May. 30, 2008 K. Park

Cross check Acceptance calculation - Based on phase space event generator - compare between GeNEV and AAO Re-calculation of Rad. Corr. - Based on new binning (12 φ ) from ExcluRad Study of ExcluRad model dependence - MAID2003 vs. Sato-Lee 2004 Apply more tight physics cuts - electron, pion fiducial cuts Cross check Acceptance calculation - Based on phase space event generator - compare between GeNEV and AAO Re-calculation of Rad. Corr. - Based on new binning (12 φ ) from ExcluRad Study of ExcluRad model dependence - MAID2003 vs. Sato-Lee 2004 Apply more tight physics cuts - electron, pion fiducial cuts Analysis -detail Axial Form Spectroscopy Meeting May. 30, 2008 K. Park

Analysis -detail Axial Form Spectroscopy Meeting May. 30, 2008 K. Park RC difference is less than few % in nπ + channel !!

Cross section ( φ* ) Preliminary results φ* – dependent cross section in term of W, Q 2, cosθ* Various physics models Preliminary Axial Form Spectroscopy Meeting May. 30, 2008 K. Park

Cross section ( φ* ) φ* – dependent cross section in term of W, Q 2, cosθ* Various physics models Preliminary Preliminary results Axial Form Spectroscopy Meeting May. 30, 2008 K. Park

Cross section ( φ* ) φ* – dependent cross section in term of W, Q 2, cosθ* Various physics models Preliminary Preliminary results Axial Form Spectroscopy Meeting May. 30, 2008 K. Park

Structure Function Sensitive ! Preliminary Preliminary results Axial Form Spectroscopy Meeting May. 30, 2008 K. Park

Sensitive ! Preliminary Structure Function Preliminary results Axial Form Spectroscopy Meeting May. 30, 2008 K. Park

Insensitive ! Preliminary Structure Function Preliminary results Axial Form Spectroscopy Meeting May. 30, 2008 K. Park

Legendre Moments (T+L) Preliminary Preliminary results Axial Form Spectroscopy Meeting May. 30, 2008 K. Park

Legendre Moments (TT) Preliminary Preliminary results Axial Form Spectroscopy Meeting May. 30, 2008 K. Park

Legendre Moments (LT) Preliminary Preliminary results Axial Form Spectroscopy Meeting May. 30, 2008 K. Park

Legendre moments vs. Form Factors for n π + channel Due to low-energy theorem(LET) relates the S-wave multipoles or equivalently, the form factor G 1, G threshold P.E. Bosted Phys. Rev. C 51 (1995) P.E. Bosted Phys. Rev. C 51 (1995) Axial Form Spectroscopy Meeting May. 30, 2008 K. Park Scherer, Koch, NPA534(1991) Vainshtein, Zakharov NPB36(1972) Scherer, Koch, NPA534(1991) Vainshtein, Zakharov NPB36(1972) Assumption in LCSR V.Braun arXiv: Assumption in LCSR V.Braun arXiv:

Legendre moments vs. Form Factors Axial Form Spectroscopy Meeting May. 30, 2008 K. Park

Legendre moments vs. Form Factors Axial Form Spectroscopy Meeting May. 30, 2008 K. Park

Legendre moments vs. Form Factors Axial Form Spectroscopy Meeting May. 30, 2008 K. Park

Very Preliminary results MAID03 SLee04 Lines : MAID07 Bold : Real Thin : Imaginary Q 2 dependence of the Normalized E 0+ Multipole by dipole Axial Form Spectroscopy Meeting May. 30, 2008 K. Park Preliminary RC corr. base on MAID03 RC corr. base on S-Lee04 Color index

Legendre moments vs. Form Factors for n π + channel Due to low-energy theorem(LET) relates the S-wave multipoles or equivalently, the form factor G 1, G threshold P.E. Bosted Phys. Rev. C 51 (1995) P.E. Bosted Phys. Rev. C 51 (1995) Axial Form Spectroscopy Meeting May. 30, 2008 K. Park P.E. Bosted Phys. Rev. C 51 (1995) P.E. Bosted Phys. Rev. C 51 (1995)

Legendre moments vs. Form Factors Axial Form Spectroscopy Meeting May. 30, 2008 K. Park

Legendre moments vs. Form Factors Axial Form Spectroscopy Meeting May. 30, 2008 K. Park * Real parts x1, x2 can be determined by A1, D0 legendre coeff. * 3 Eqs. 4 parameter should be determined * Imaginary parts y1, y2 can be determined in 2cases * Asymmetry helps to determine complete form factor

Very Preliminary results Assumption of G E n =0 Assumption of Im(G 2 )=y 2 =0 Lines : MAID07 Bold : Real Thin : Imaginary Q 2 dependence of the Normalized E 0+ Multipole by dipole Axial Form Spectroscopy Meeting May. 30, 2008 K. Park Preliminary Color index

Complete Cross check Acceptance calculation - based on different simulation Re-calculation of Rad. Corr. - based on new binning Extract new cross sections based on above Extract very preliminary E 0+ /G D for channel Still ….. Double check out the cross section more careful work to get form factor after more frequent communication with theory group Calculate the systematic errors Complete Cross check Acceptance calculation - based on different simulation Re-calculation of Rad. Corr. - based on new binning Extract new cross sections based on above Extract very preliminary E 0+ /G D for channel Still ….. Double check out the cross section more careful work to get form factor after more frequent communication with theory group Calculate the systematic errors Summary and Future plans Axial Form Spectroscopy Meeting May. 30, 2008 K. Park

BACKUP

Cross section ( φ* ) φ* – dependent cross section in term of W, Q 2, cosθ* Various physics models Preliminary Preliminary results Axial Form Spectroscopy Meeting May. 30, 2008 K. Park

Cross section ( φ* ) φ* – dependent cross section in term of W, Q 2, cosθ* Various physics models Preliminary Preliminary results Axial Form Spectroscopy Meeting May. 30, 2008 K. Park

MAID2007MAID2007 Bold –Real part Thin – Imaginary part Axial Form Spectroscopy Meeting May. 30, 2008 K. Park

MAID2007MAID2007 Bold –Real part Thin – Imaginary part Axial Form Spectroscopy Meeting May. 30, 2008 K. Park

Threshold Pion Workshop, Jlab Feb. 19, 2008 V. M. Braun

Axial Form Spectroscopy Meeting May. 30, 2008 K. Park Neutron Magnetic Structure