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LISHEP, March 2013, Rio de Janeiro DIFFRACTION at the LHC

LISHEP, March 2013, Rio de Janeiro DIFFRACTION at the LHC. László Jenkovszky, Kiev, jenk@bitp.kiev.ua. Some open questions: 0) Definition of diffraction: rapidity gap vs. P exchange; 1) The ratio between SD, DD and CD?

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LISHEP, March 2013, Rio de Janeiro DIFFRACTION at the LHC

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  1. LISHEP, March 2013, Rio de JaneiroDIFFRACTION at the LHC László Jenkovszky, Kiev, jenk@bitp.kiev.ua

  2. Some open questions: 0) Definition of diffraction: rapidity gap vs. P exchange; 1) The ratio between SD, DD and CD? 2) Integrated cross section require the knowledge of the M- dependence for all M! Low- and high M: • Duality in M (FMSR); • Structures in t: a dip in t~1 GeV^2,… 5) The background (in s and in M); 6) Exclusive-inclusive relation; 7) From elastic to inelastic diffraction (dis)continuity.

  3. Simple (but approximate) factorization relations

  4. (and ratios:σ/B,…….).

  5. Low-mass diffraction dissociation at the LHC L. Jenkovszky, O. Kuprash, J. Lamsa, V. Magas, and R,. Orava: Dual-Regge approach to high-energy, low-mass DD at the LHC, Phys. Rev. D83(2011)0566014; hep-ph/1-11.0664. L. Jenkovszky, O. Kuprash, J. Lamsa and R. Orava: hep-ph/11063299, Mod. Phys. Letters A. 26(2011) 1-9, August 2011.

  6. TriTriple Regge (Pomeron) limit::

  7. FNAL

  8. Alternative (to the triple Regge) approach: Diffraction dissociation and DIS : G.A. Jaroszkiewicz and P.V. Landshoff, Phys. Rev. 10 (1974) 170; A. Donnachie, P.V. Landshoff, Nucl. Phys. B 244 (1984) 322.

  9. JLAJLAB  LHC; γ P; q^2 t R. Fiore {\it et al.} EPJ A 15 (2002) 505,hep-ph/0206027;. R. Fiore {\it et al.} Phys. Rev. D 68 (2004) 014004, hep-ph/0308178.

  10. Low-mass diffraction dissociation at the LHC L. Jenkovszky, O. Kuprash, J. Lamsa, V. Magas, and R,. Orava: Dual-Regge approach to high-energy, low-mass DD at the LHC, Phys. Rev. D83(2011)0566014; hep-ph/1-11.0664. L. Jenkovszky, O. Kuprash, J. Lamsa and R. Orava: hep-ph/11063299, Mod. Phys. Letters A. 26(2011) 1-9, August 2011.

  11. At At the LHC, in the nearly forward direction, Pomeron exchange dominates; the rest, e.g. f-exchange, being negligible

  12. SD and DD cross sections

  13. “Reggeized (dual) Breit-Wigner” formula:

  14. SDD cross sections vs. energy. *Normalization to ~14 mb at 7 TeV.

  15. Approximation of background to reference points (t=-0.05)

  16. Approximation of background to reference points (t=-0.5)

  17. B-slopes for SD B-slope for SD cross section vs. t for different M2 values

  18. Double differential SD cross sections (left) Double differential SD cross sections as a functions of M2 for different t values, (right) Double differential SD cross sections as a function of t for different M2 values.

  19. Single differential integrated SD cross sections

  20. DDD cross sections vs. energy.

  21. Integrated DD cross sections (left) Single differential SD cross sections as a functions of t integrated in different M1:M2 regions. (right) Double differential SD cross sections as a function M2 integrated in region [0.0: 1.0] of t. value.

  22. t = - 0.2 t = - 0.1 t = - 0.3 Triple differential DD cross sections

  23. The parameters and results

  24. Open problems: 1. Interpolation in energy: from the Fermilab and ISR to the LHC; (Inclusion of non-leading contributions); 3. Deviation from a simple Pomeron pole model and breakdown of Regge-factorization; 4. Experimental studies of the exclusive channels (p+π,…) produced from the decay of resonances (N*, Roper?,,,) in the nearly forward direction. 5. Turn down of the cross section towards t=o?!

  25. Prospects (future plans): central diffractive meson production (double Pomeron exchange)

  26. Thanks for your attention! Recent: L. Jenkovszky, R. Orava, A. Salii^ Low-mass single- and double diffraction dissociation at the LHC, hep-ph, arXiv:1211.5841, Nov. 2012.

  27. Natal, March 22, 2013, DIFFRACTION at the LHC László Jenkovszky, Kiev, jenk@bitp.kiev.ua

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