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EINN 2005, Milos, GreeceShalev Gilad - MIT Nuclear Structure and Dynamics in the 3 He(e,e’p)d and 3 He(e,e’p)pn Reactions Two high resolution spectrometers.

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Presentation on theme: "EINN 2005, Milos, GreeceShalev Gilad - MIT Nuclear Structure and Dynamics in the 3 He(e,e’p)d and 3 He(e,e’p)pn Reactions Two high resolution spectrometers."— Presentation transcript:

1 EINN 2005, Milos, GreeceShalev Gilad - MIT Nuclear Structure and Dynamics in the 3 He(e,e’p)d and 3 He(e,e’p)pn Reactions Two high resolution spectrometers (  p/p  10 -4 ); δΩ = 6 msr High current, high polarization (  80%) cw beam High current, high polarization (  80%) cw beam High pressure 3 He target - luminosity ≈ 10 38 cm 2 sec -1 Focal-plane hadron polarimeter Focal-plane hadron polarimeter JLAB Hall A

2 EINN 2005, Milos, GreeceShalev Gilad - MIT A(e,e’p)  i = v i R i

3 EINN 2005, Milos, GreeceShalev Gilad - MIT Kinematics of Measurements Fixed electron kinematics: q=1.5 GeV/c ω=0.837 GeV quasi-elastic: x B ~1 “Perpendicular” proton kinematics High energy of ejected proton: T p ›0.8 GeV 3 virtual photon polarizations: 0.108‹ε‹0.943 Parallel kinematics – poster, Eric Voutier

4 EINN 2005, Milos, GreeceShalev Gilad - MIT 2bbu x-sections; distorted S(p m ) M. M. Rvachev et al., PRL 94, 192302 (2005)

5 EINN 2005, Milos, GreeceShalev Gilad - MIT Comparison to previous data Florizone: “Parallel” kinematics x B ≈ 1 Kozlov: “Parallel” kinematics x B > 1

6 EINN 2005, Milos, GreeceShalev Gilad - MIT Models Laget:  Gswf generated from solution to Faddeev eqn. with Paris NN potential  (also variational calculations using AV18+UIX)  Kinematics, nucleon & meson propagators are relativistic; un-factorized; Mott+FF  One-, two- & 3-body interactions  FSI globally parameterized from LANL, SATURN &COSY data  No angular restriction (Glauber type) imposed on loop integrals  2bbu: p m, A TL ; 3bbu: p m, E m (p m ) Ciofi degli Atti:  PWIA+FSI; factorized; CC1  Gswf generated from AV18  Kinematics is relativistic  FSI using generalized Eikonal approximation (“frozen”, only  mom. Trans.)  Single-, double re-scattering  2bbu: p m ; 3bbu: Em(p m ) 3-Body graphs

7 EINN 2005, Milos, GreeceShalev Gilad - MIT Models (cont.) Schiavilla:  Variational GSWF generated using AV18+UIX Hamiltonian using Correlated hyperspherical harmonics (CHH); un-factorized  Relativistic one and two-body current operator (Jeschonnek & Donnely)  FSI using Glauber approx. retaining spin & isospin dependencies  Single-double re-scattering  2bbu: pm, A TL ; 3bbu: in near future Udias:  GSWF generated by Faddeev technique using AV8+central NNN (Gaussian or exponential, adjusted for binding energy); un-factorized; CC2  Fully relativistic kinematics and dynamics  FSI using optical potential generated by relativistic folding model – fold effective £ with residual nuclei. Parameters of effective £ reproduce elastic p-d & p-He scattering data  2bbu: p m, A TL

8 EINN 2005, Milos, GreeceShalev Gilad - MIT 3 regions in p m

9 EINN 2005, Milos, GreeceShalev Gilad - MIT X-sections for -150 < p m < 150 MeV/c  NNN forces important at very low p m (~25%)  FSI starts to break factorization around |p m | > 150 MeV/c LagetSchiavilla

10 EINN 2005, Milos, GreeceShalev Gilad - MIT 150 < p m < 700 MeV/c

11 EINN 2005, Milos, GreeceShalev Gilad - MIT Affect of different NN potentials R. Schiavilla et al., nucl-th/0508048

12 EINN 2005, Milos, GreeceShalev Gilad - MIT P m > 600 MeV/c Laget: 3-body diagram(s) Ciofi: double scattering Schiavilla: double scattering Non-hadronic? “Exotic”?

13 EINN 2005, Milos, GreeceShalev Gilad - MIT A TL No structure in PWIA - factorized Factorization broken by FSI No A TL from Ciofi – factorized calculations

14 EINN 2005, Milos, GreeceShalev Gilad - MIT 3 He(e,e’p)pn – 3bbu E m - E th (MeV) For 2-body kinematics with a spectator A-2 – relationship between E m and p m Low p m : correlations? F. Benmokhtar et al., PRL 94, 082305 (2005)

15 EINN 2005, Milos, GreeceShalev Gilad - MIT 3bbu – high p m E m – E th (MeV) High p m : dominated by FSI Note: similarly good calculations by Ciofi

16 EINN 2005, Milos, GreeceShalev Gilad - MIT 2bbu, 3bbu “distorted” spectral functions High Q 2 ; x B ≈ 1  Reduced MEC, Δ contributions At p m > p F spectral function is much larger for 3bbu than for 2bbu due to correlations (SRC) Calculations reproduce both 2bbu and 3bbu - confidence Awaiting calculations by Schiavilla

17 EINN 2005, Milos, GreeceShalev Gilad - MIT Summary, conclusions, and outlook  Extensive and precise data set for 3 He(e,e’p)d and 3 He(e,e’p)pn -750 > p m > 1000 MeV/c x-section over 6 decades many kinematics many observables (x-sections A TL, R L, R T ) This is the only way to test ingredients of theory in details!!!!  Data illuminates details of 3 He gswf (NN, NNN potentials, correlations) and reaction dynamics although x-sections dominated by FSI  All models reproduce data reasonably well; some better than others Ciofi - (factorized) has problems with A TL Laget - problems with GSWF, diagramatic approach not transparent Schiavilla – most sound and sophisticated; does best job for 3 He(e,e’p)d Udias – does surprisingly well using RDWIA – o. p. for FSI in 3 He(e,e’p)d

18 EINN 2005, Milos, GreeceShalev Gilad - MIT Summary, conclusions and outlook (cont.)  Must Test models with other reactions, kinematics, and on deuteron (measured), 4 He (experiment approved for Hall A) Ciofi – does ok with 2bbu, 3bbu, d, some predictions for 4 He Laget – does reasonably well with 2bbu, 3bbu, 3 He(e,e’pN)N, d Schiavilla – working on 3 He(e,e’p)pn, 4 He(e,e’p) 3 H, ingredients tested on d Udias – has predictions for 4 He(e,e’p) 3 H  Exciting times are ahead M. M. Rvachev et al., PRL 94, 192302 (2005) F. Benmokhtar et al., PRL 94, 082305 (2005) J. M. Laget, Phys. Lett. B609, 49 (2005) J. M. Laget, Phys. Rev. C72, 024001 (2005) C. Ciofi degli Atti and L. P. Kaptari, PRL 95, 0052502 (2005) C. Ciofi degli Atti and L. P. Kaptari, Phys. Rev. C71, 024005 (2005) R. Schiavilla et al., nucl-th/0508048 J. M. Udias, private communications

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