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Marc Vanderhaeghen Johannes Gutenberg Universität, Mainz Olympus Coll. Meeting, DESY, February 23-24, 2010 TexPoint fonts used in EMF. Read the TexPoint.

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Presentation on theme: "Marc Vanderhaeghen Johannes Gutenberg Universität, Mainz Olympus Coll. Meeting, DESY, February 23-24, 2010 TexPoint fonts used in EMF. Read the TexPoint."— Presentation transcript:

1 Marc Vanderhaeghen Johannes Gutenberg Universität, Mainz Olympus Coll. Meeting, DESY, February 23-24, 2010 TexPoint fonts used in EMF. Read the TexPoint manual before you delete this box.: AAAA Two-photon exchange

2 Nucleon form factors : motivation Puzzle of different results extracted for G E / G M in Rosenbluth vs polarization experiments Elastic eN scattering beyond the one-photon exchange approximation two-photon exchange processes Leading pQCD analysis of two-photon exchange amplitude in coll. with N. Kivel : PRL 103, 092004 (2009) Comparison with experiments in coll. with : A.Afanasev, S. Brodsky, C. Carlson, Y.C. Chen, M. Gorchtein, P.A.M. Guichon, N. Kivel, V. Pascalutsa, B. Pasquini review : C. Carlson and M. Vdh, Ann. Rev. Nucl. Part. Sci. 57 (2007) 171 - 204 OutlineOutline

3 proton e.m. form factor : status green : Rosenbluth data (SLAC, JLab) Pun05 Gay02 JLab/HallA recoil pol. data new JLab/HallC recoil pol. exp. (spring 2008) : extension up to Q 2 ≈ 8.5 GeV 2 new MAMI/A1 data up to Q 2 ≈ 0.7 GeV 2

4 interpretation of Form Factor as quark density overlap of wave function Fock components with same number of quarks interpretation as probability/charge density overlap of wave function Fock components with different number of constituents NO probability/charge density interpretation qq absent in a LIGHT-FRONT frame ! q + = q 0 + q 3 = 0

5 quark transverse charge densities in nucleon (I) longitudinally polarized nucleon q + = q 0 + q 3 = 0 photon only couples to forward moving quarks quark charge density operator p’p z light-front Miller (2007)

6 transversely polarized nucleon transverse spin e.g. along x-axis : dipole field pattern quark transverse charge densities in nucleon (II) Carlson, Vdh (2007)

7 empirical quark transverse densities in proton data : Arrington, Melnitchouk, Tjon (2007) densities : Miller (2007); Carlson, Vdh (2007) induced EDM : d y = F 2p (0). e / (2 M N ) ρ0ρ0 ρTρT + +

8 empirical quark transverse densities in neutron data: Bradford, Bodek, Budd, Arrington (2006) densities : Miller (2007); Carlson, Vdh (2007) induced EDM : d y = F 2n (0). e / (2 M N ) ρTρT ρ0ρ0 - - + +

9 Rosenbluth separation method One-photon exchange elastic electron-nucleon cross section G E 2 /  ε SLAC : Andivahis et al. (1994)

10 Polarization transfer method in one-photon exchange approximation : Akhiezer, Rekalo (1974)

11 Jlab/Hall A Polarization data Jones et al. (2000) Gayou et al. (2002) SLAC, Jlab (Hall A, Hall C) Rosenbluth data Two methods, two different results ! Rosenbluth vs polarization transfer measurements of G E /G M of proton

12 Future experiments : large Q 2 behavior of FFs

13 Discrepancy between Rosenbluth and polarization data SLAC : Andivahis et al. (1994) Difference cannot be explained by experimental uncertainties : requires few %  -dependence, linear in  ε

14 Speculation : missing radiative corrections Speculation : there are radiative corrections to Rosenbluth experiments that are important and are not included missing correction : linear in  not strongly Q 2 dependent G E term is proportionally smaller at large Q 2 if both FF scale in same way effect more visible at large Q 2 Q 2 = 6 GeV 2

15 Radiative correction diagrams bremsstrahlung vertex corrections 2 photon exchange box diagrams

16 Radiative corrections at electron side, well understood and taken care of Soft bremsstrahlung involves long-wavelength photons compositeness of nucleon only enters through on-shell form factors Box diagrams involve photons of all wavelengths long wavelength (soft photon) part is included in radiative correction (IR divergence is cancelled with electron proton bremsstrahlung interference) short wavelength contributions : not done in “old” days Comments on radiative corrections

17 Status of radiative corrections Tsai (1961), Mo & Tsai (1968) box diagram calculated using only nucleon intermediate state and using q 1 ¼ 0 or q 2 ¼ 0 in both numerator and denominator (calculate 3-point function) -> gives correct IR divergent terms Maximon & Tjon (2000) same as above, but make the above approximation only in numerator (calculate 4-point function) + use on-shell nucleon form factors in loop integral Blunden, Melnitchouk, Tjon (2003) further improvement by keeping the full numerator N

18 Formalism of 2-photon exchange

19 equivalently, introduce Kinematical invariants : for m e = 0 Guichon, Vdh (2003) Elastic eN scattering beyond one-photon exchange approximation

20 Observables including two-photon exchange Real parts of two-photon amplitudes

21 Phenomenological analysis Guichon, Vdh (2003) 2-photon exchange corrections can become large on the Rosenbluth extraction,and are of different size for both observables relevance when extracting form factors at large Q 2

22 2-photon exchange calculations 2-photon exchange calculations Blunden, Tjon, Melnitchouk (2003, 2005) hadronic calculation Chen, Afanasev, Brodsky, Carlson, Vdh (2003) partonic calculation GPDs

23 Leading pQCD analysis of 2-photon exchange amplitude

24 Proton FFs at large Q 2 Chernyak, Zhitnizky (1977) ; Brodsky, Lepage (1979); Efremov, Radyushkin (1980)

25 Leading pQCD analysis of 2-photon exchange amplitude Kivel, Vdh (2009); Borisyuk, Kobushkin (2009) Dominant region : both photons are highly virtual

26 Proton Distribution Amplitude Chernyak, Ogloblin, Zhitnitsky (1988) Braun, Lenz, Wittmann (2006) Gockeler et al (2008)

27 Comparision with experiments

28 Results for Rosenbluth plots Blue : 1-photon results

29 test of ε - dependence of P l JLab/Hall C data Q 2 =2.5 GeV 2 2  corrections on P l small !

30 test of ε - dependence of P t / P l JLab/Hall C data Q 2 =2.5 GeV 2 2  corrections on P t / P l small ! pQCD calculations ε

31 real part Direct test of real part of 2  amplitude Results for e+/e- ratio SLAC data Arrington (2003) Olympus projected data

32 Results for e+/e- ratio BLW DA Lattice DA (QCDSF) COZ DA Q 2 = 2.4 Q 2 = 3.25 Planned experiments : Jlab/CLAS, Olympus@DESY ε Calculations : Kivel, Vdh (2009) proton Distribution Amplitude

33 on-shell intermediate state spin of beam OR target NORMAL to scattering plane imaginary part directly proportional to the imaginary part of 2-photon exchange amplitudes OR order of magnitude estimates : target : beam : Normal spin asymmetries in elastic eN scattering

34 Beam normal spin asymmetry E e = 0.300 GeV Θ e = 145 deg E e = 0.570 GeV Θ e = 35 deg E e = 0.855 GeV Θ e = 35 deg theory : Pasquini & Vdh (2004) MAMI data A4 experiment

35 Expt.E(GeV)Q 2 GeV 2 B n (ppm) SAMPLE0.1920.10-16.4±5.9 A40.5700.11-8.59±0.89 A40.8550.23-8.52±2.31 HAPPEX3.00.11-6.7 ± 1.5 G03.00.15-4.06 ± 1.62 G03.00.25-4.82 ± 2.85 E-158(ep)46.00.06-3.5 -> -2.5 Beam normal spin asymmetry : experiments

36 Real part of Y 2 γ 1) ε -independence of G Ep /G Mp in recoil polarization 2) cross section difference in e + and e - proton scattering 3) non-linearity of Rosenbluth plot Also imaginary part 4) from induced out-of-plane polarization 5) single-spin target asymmetry Hall C 04-019, completed Hall B 07-005; Olympus/Doris with refurbished BLAST detector Hall C 05-017; being analyzed by-product of 04-019/04-108? Hall A 05-015 ( 3 He ) whether two-photon exchange is entirely responsible for the discrepancy in the FF extraction is to be determined experimentally

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