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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.

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Presentation on theme: "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."— Presentation transcript:

1 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 before you delete this box.: AAAAA A A A A A DNP 2010 Santa Fe, NM

2 Baryon form factors  Measure Q 2 dependence of baryon form factor data  Map out the spatial densities of the nucleon  Address the role of meson cloud  Study the transition from meson/baryon degrees of freedom to the asymptotic regime  Knowledge of form factors complements nucleon FF  P  (1232) I = 3/2 J = 3/2 Decays to  N with 99% BR Can be excited by M1, E2 and S1 multipoles M1 dominates  S 11 (1535) Negative parity partner I = 1/2 J =1/2 Decays to  N with 55% BR A 1/2 helicity amplitude dominates over S 1/2

3 TexPoint fonts used in EMF. Read the TexPoint manual before you delete this box.: AAAAA A A A Magnetic FF, G* M, for P 33 (1232) Previous Experiments I. G. AznauryanI. G. Aznauryan, V. D. Burkert, the CLAS Collaboration Phys.Rev.C80:055203,2009V. D. BurkertCLAS Collaboration Two frameworks used to extract multipoles from experimental data Fixed-t dispersion relations Unitary Isobar Model (UIM) E2/M1 for P 33 (1232)

4 TexPoint fonts used in EMF. Read the TexPoint manual before you delete this box.: AAAAA A A A Magnetic FF, G* M, for P 33 (1232) Previous Experiments E2/M1 for P 33 (1232) New Hall C data cross sections for W = 1.08 to 1.4 GeV Full   and  * at Q 2 = 6.4 GeV 2, partial at Q 2 = 7.7 GeV 2

5 TexPoint fonts used in EMF. Read the TexPoint manual before you delete this box.: AAAAA A A A Helicity Amplitude A 1/2 for S 11 (1535) Previous Experiments New Hall C data cross sections for W = 1.50 to 1.59 GeV Full   and  * at Q 2 = 5.7 GeV 2, partial coverage at Q 2 = 7.0 GeV 2 At very large Q 2 expect Q 3 A 1/2 to be a constant.

6 Hall C Experiment SOS detected electrons Q 2 = 6.4  SOS = 47.5 Q 2 = 7.7  SOS = GeV e - Beam SOS HMS detected proton 4cm LH2 Angular acceptance 3 o in-plane 6 o out-of-plane Q2  HMS P HMS to to to to 4.7

7 e  Identifying exclusive channels W  S 11 q P’ MxMx ee e’  pq oo  Eliminate radiated elastic events with cut on  cm =180

8 e  Identifying exclusive channels W  S 11 q P’ MxMx ee e’  pq oo 

9 e  Identifying exclusive channels W  S 11 q P’ MxMx ee e’  pq oo 

10 Meson Production in  p center of mass ** Scattering plane Reaction plane  oo p’ p ** Boost from Center of Mass to LAB At Q 2 = 6.4 GeV 2  cm = 90 o  pq = 3.7 o

11  o production c.m. cross section

12 Truncated Multipole Analysis Q 2 = 6.4 GeV 2 Large M1- and E0+ so M1 dominance is not viable Need to use cross section data in global analysis framework like UIM to reliably extract multipoles

13  Magnetic Form factor

14 P 

15 Multipion subtraction in  production W = 1.5 GeV

16  production cross section Q 2 = 5.7 data

17  production cross section Q 2 = 7.0 data Fit with

18  total cross section Simultaneous fit both data sets with relativistic Breit-Wigner.

19 Q 2 dependence of A 1/2 for S 11 New Jlab Data

20 Summary  Measured  Full  cm and  cm for W = 1.08 to 1.4 GeV at Q 2 = 6.4 GeV 2  Partial  cm and  cm for W = 1.08 to 1.4 GeV Q 2 = 7.7 GeV 2  Determine G* M, E2/M1 in global UIM analysis  A. N. Villano et al, Phys.Rev.C80:035203,2009 ArXiv: v2 has UIM analysis results  Measured  Full  cm and  cm for W = 1.50 to 1.59 GeV at Q 2 = 5.7 GeV 2  Partial  cm and  cm for W = 1.50 to 1.59 GeV at Q 2 = 7.0 GeV 2  Determine A 1/2 for S 11  M. Dalton et al, Phys.Rev.C80:015205,2009

21 Backup slides

22 Elimination of elastic radiated process Q 2 = 6.4 GeV 2 Simulation of elastic radiated events Data

23 Hall C region of study Hall C region of study Magnetic FF, G* M, for P 33 (1232) In Large N c limit with GPDs E u and E d from fits to proton and neutron data

24

25 Total cross section Q 2 = 6.4 GeV 2 Q 2 = 7.7 GeV 2 Fit total cross section with Breit-Wigner + background Assume M1 dominance and extract G M


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