Presentation is loading. Please wait.

Presentation is loading. Please wait.

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

Published byThomasine McDaniel Modified over 8 years ago

Similar presentations

Presentation on theme: "JLAB Program of Baryon Form Factors at High Momentum Transfer Current Status and Future Directions. Paul Stoler Rensselaer Polytechnic Institute Milos."— Presentation transcript:

1 JLAB Program of Baryon Form Factors at High Momentum Transfer Current Status and Future Directions. Paul Stoler Rensselaer Polytechnic Institute Milos 2005

2 Jlab high Q 2 program extensive with various decay channels. Focus on two experiments : CLAS Ebeam=5.75 GeV L~10 34 cm -1 s -1 Full cm angular coverage Q 2 continuous from 2 to 5 GeV 2 /c 2 W continuous from threshhod to 3 GeV Many experiments obtained in one run PhD thesis M. Ungaro Hall C focusing spectrometers Ebeam = 5.5 GeV L>10 38 Nearly full cm angular coverage at  Most angular coverage at S11 Q 2 at 2 points 6.3 and 7.5 GeV 2 /c 2 PhD thesis: Anthony Villano Hall C experiment analysis not yet complete.. Analysis complete on CLAS experiment. Thus focus rest of talk on CLAS results

3 Cartoon of relevant physics at different Q2 scales. Isobar model Quark model GPDpQCD

4

5 Some of the physics issues G M * is related to the isovector component of the elastic form factor. G M * vs Q 2 : Falls much faster than G MP Falls much faster than dipole Relate via GPD’s to Isovector G EP E 1+ /M 1+ : Helicity meter. =1 pQCD =0 quark model

6 15 bins in W - 20 MeV bin size - 1.1 – 1.4 GeV 7 bins in Q2 - variable bin size - 2-6 GeV 10 bins in cos   12 bins in   Kinematic coverage Highest in Q 2 so far Full coverage of cm angles

7 CLAS eg1 Experiment More than 10000 data intervals in W, Q 2, 

8 CLAS ability to detect large kinematic range Bethe Heitler separation:  0 selection

9 W=1.23, Q 2 =1.72

10 Structure functions extraction: bb

11 Structure functions Legendre expansion: bb

12 Different ways to extract amplitudes M 1+ dominance. Assume all multipoles are much smaller than M +1 Retain only those which multiply M 1+ 6 parameter fit. Problem: At high Q 2 M 1+ decreases relative to other multipoles. Thus this approximation becomes less valid Better way: Isobar/Effective Lagrangian Fit all amplitudes taking into account contributions from all known resonances and backgrounds. JANR, Dynamic, DMT, MAID Problem: The result becomes model dependent.

13 E 1+ /M 1+ S 1+ /M 1+ Preliminary Results (M Ungaro et al.)  M 1+ dominance  Isobar (JANR I. Aznauryan et al. )

14 G * M still falling faster than G D CLAS preliminary GPD prediction: PRL 03, issue 91, vol 17 - 172303

15 This can be F2 is predominantly isoscalar while F1 is predominantly related to the isovector part of the proton elactic form factor. Thus Apply GPD with chiral symmetry (see Goeke, Vanderhaeghen, Polyakov,Frankfort, Strickman)

16 SOME DETAILS

17 Obtain E IV from fit to F 2P ( P.S. Phys.Rev.Lett.91:172303,2003) (Renormalize E IV by 1.3 to get agreement at Q 2 ~0 )

18 s+h s Future Program: Jlab g12 GeV Must study elastic and resonance form factors from he point of view of a unfied/coherent GPD picture of the nucleon and its excitations  G E /G M  G M * /3G D E 1+ /M 1+

19

20

21 H 0 E 0 t=-30 GeV 2 t=0

22 Polyakov, Vanderhaeghen, Frankfurt, Strickman

23 s+h s

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

Similar presentations

Measurement of the Coulomb quadrupole amplitude in the γ*p Δ(1232) in the low momentum transfer region Nikos Sparveris Massachusetts Institute of Technology.

Measurement of the Coulomb quadrupole amplitude in the γ*p Δ(1232) in the low momentum transfer region Nikos Sparveris Massachusetts Institute of Technology.
G. Fedotov Electroproduction of  +  - p in the 2 nd resonance region off protons G. Fedotov, R. W. Gothe.

G. Fedotov Electroproduction of  +  - p in the 2 nd resonance region off protons G. Fedotov, R. W. Gothe.
Exclusive   and  electro-production at high Q 2 in the resonance region Mark Jones Jefferson Lab TexPoint fonts used in EMF. Read the TexPoint manual.

Exclusive   and  electro-production at high Q 2 in the resonance region Mark Jones Jefferson Lab TexPoint fonts used in EMF. Read the TexPoint manual.
1 Single  0 Electroproduction in the Resonance Region with CLAS Kyungseon Joo University of Connecticut For the CLAS Collaboration N* 2009 Beijing, China.

1 Single  0 Electroproduction in the Resonance Region with CLAS Kyungseon Joo University of Connecticut For the CLAS Collaboration N* 2009 Beijing, China.
Richard Lindgren - UVa Cole Smith - UVa Khem Chirapatimol - Chiang Mai University E04- Status Report Precision Measurements of π 0 Electroproduction near.

Richard Lindgren - UVa Cole Smith - UVa Khem Chirapatimol - Chiang Mai University E04- Status Report Precision Measurements of π 0 Electroproduction near.
Onset of Scaling in Exclusive Processes Marco Mirazita Istituto Nazionale di Fisica Nucleare Laboratori Nazionali di Frascati First Workshop on Quark-Hadron.

Onset of Scaling in Exclusive Processes Marco Mirazita Istituto Nazionale di Fisica Nucleare Laboratori Nazionali di Frascati First Workshop on Quark-Hadron.
Ralf W. Gothe EMIN 2009 1 Nucleon Transition Form Factors at JLab: Recent Results and Perspectives  Motivation: Why Nucleon Transition Form Factors? 

Ralf W. Gothe EMIN Nucleon Transition Form Factors at JLab: Recent Results and Perspectives  Motivation: Why Nucleon Transition Form Factors? 
N*(2007) observed at LNS Sendai H. Shimizu Laboratory of Nuclear Science Tohoku University Sendai NSTAR2007, Sep.5-8, 2007, Bonn 1670.

N*(2007) observed at LNS Sendai H. Shimizu Laboratory of Nuclear Science Tohoku University Sendai NSTAR2007, Sep.5-8, 2007, Bonn 1670.
Experimental requirements for GPD measurements at JLab energies. Detector that ensures exclusivity of process, measurement of complete final state Measure.

Experimental requirements for GPD measurements at JLab energies. Detector that ensures exclusivity of process, measurement of complete final state Measure.
1 Electromagnetic Excitation of Baryon Resonances.

1 Electromagnetic Excitation of Baryon Resonances.
Ralf W. Gothe N STAR 2009 1 Nucleon Transition Form Factors at JLab: Status and Outlook Beijing, April 19 – 22, 2009  Motivation: Why Nucleon Transition.

Ralf W. Gothe N STAR Nucleon Transition Form Factors at JLab: Status and Outlook Beijing, April 19 – 22, 2009  Motivation: Why Nucleon Transition.
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.
Proton polarization measurements in π° photo-production --On behalf of the Jefferson Lab Hall C GEp-III and GEp-2γ collaboration Wei Luo Lanzhou University.

Proton polarization measurements in π° photo-production --On behalf of the Jefferson Lab Hall C GEp-III and GEp-2γ collaboration Wei Luo Lanzhou University.
Backward meson production at CLAS Alex Kubarovsky (RPI/Uconn) Kyungseon Joo (Uconn) Valery Kubarovsky (Jlab) Paul Stoler (RPI) Exclusive Meson Production.

Backward meson production at CLAS Alex Kubarovsky (RPI/Uconn) Kyungseon Joo (Uconn) Valery Kubarovsky (Jlab) Paul Stoler (RPI) Exclusive Meson Production.
Ralf W. Gothe Nucleon Transition Form Factors Beijing 2007 1 Transition Form Factors at JLab: The Evolution of Baryonic Degrees of Freedom Ralf W. Gothe.

Ralf W. Gothe Nucleon Transition Form Factors Beijing Transition Form Factors at JLab: The Evolution of Baryonic Degrees of Freedom Ralf W. Gothe.
Proton polarization measurements in π° photo- production --on behalf of the Jefferson Lab Hall C GEp-III and GEp-2 γ collaboration 2010 Annual Fall Meeting.

Proton polarization measurements in π° photo- production --on behalf of the Jefferson Lab Hall C GEp-III and GEp-2 γ collaboration 2010 Annual Fall Meeting.
T.C. Jude D.I. Glazier, D.P. Watts The University of Edinburgh Strangeness Photoproduction: Polarisation Transfer & Cross-Section Measurements.

T.C. Jude D.I. Glazier, D.P. Watts The University of Edinburgh Strangeness Photoproduction: Polarisation Transfer & Cross-Section Measurements.
Real Compton Scattering from the Proton in the Hard Scattering Regime Alan M. Nathan SLAC Experimental Seminar December 2, 2003 I. Compton Scattering from.

Real Compton Scattering from the Proton in the Hard Scattering Regime Alan M. Nathan SLAC Experimental Seminar December 2, 2003 I. Compton Scattering from.
Deeply Virtual Exclusive Reactions with CLAS Valery Kubarovsky Jefferson Lab ICHEP July 22, 2010, Paris, France.

Deeply Virtual Exclusive Reactions with CLAS Valery Kubarovsky Jefferson Lab ICHEP July 22, 2010, Paris, France.
Recoil Polarization Measurements in  0 Electroproduction at the Peak of the  (1232) By: Adam J. Sarty On behalf of the Hall A and E91-011 Collaborations.

Recoil Polarization Measurements in  0 Electroproduction at the Peak of the  (1232) By: Adam J. Sarty On behalf of the Hall A and E Collaborations.

Similar presentations

Ads by Google