PNPI & EPECUR.. New results on narrow structure in the pion nucleon elastic scattering from the EPECUR experimentn. I,G. Alekseev, I.G. Bordyuzhin,

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PNPI & EPECUR.

New results on narrow structure in the pion nucleon elastic scattering from the EPECUR experimentn. I,G. Alekseev, I.G. Bordyuzhin, D.A. Fedin, V.P. Kanavets, L.I. Koroleva, B.V. Morozov, V.M. Nesterov, V.V. Ryltsov, D.N. Svirida, A.D. Sulimov ITEP, Moscow V.A. Andreev, Ye.A. Filimonov, A.B. Gridnev, V.V. Golubev, A.I. Kovalev, N.G. Kozlenko, V.S. Kozlov, A.G. Krivshich, D.V. Novinsky, V.V. Sumachev, V.I. Tarakanov, V.Yu. Trautman PNPI, Gatchina M. Sadler ACU, Abilene

сессия 2013 A. B. Gridnev PNPI 4 Pentaquark antidecuplet ? prediction – N***(17Original 1710) From modified PWA – 1680 R. Arndt, Ya. Azimov, M. Polyakov, IS, R. Workman, Phys Rev C 69, (2004)

Why pions? Theory gives weak coupling to πN sector. Advantages: 1. The structure of the πN amplitude is much more simpler then in photoproduction 2.The πN partials waves are known very well from phase shift analysis. 3.There is isospin symmetry. 4. The number of free parameters smaller because there is no photocouplings N 2013 A. B. Gridnev PNPI

HADRON 2013 A. B. Gridnev PNPI

How we can add resonance and background? 1.Sum of amplitudes → can violate unitarity condition. 2.Sum of phase shifts → in classical physics it is true for INDEPENDENT sources. Not unique procedure. K-matrix approach with effective Lagrangians. P.F.A. Goudsmit et al Nucl.Phys A575 (1994)673 A.B. Gridnev, N.G. Kozlenko. Eur.Phys.J.A4: , (1999). T. Feuster and U. Mosel Phys. Rec. C (1998). HADRON 2013 A. B. Gridnev PNPI

It is assumed that the K-matrix, being a solution of the equation for scattering amplitude, can be considered as a sum of the tree-level Feynman diagrams with the effective Lagrangians in the vertices. 4* resonances in s and u channels and sigma, rho like exchange in t channel. Multichannel: 1. elastic scattering 2.two pion production(effective) 3. η n production 4. K Λ production 5. K Σ production HADRON 2013 A. B. Gridnev PNPI

Free parameters → coupling constants. We concentrate on elastic scattering and treat inelastic channels approximately to save the number of free parameters. Database: EPECURE results. SAID single energy solutions up to 1GeV. η n total cross section K Λ differential cross section K 0 Σ 0 differential cross section K + Σ + differential cross section K + Σ - differential cross section

HADRON 2013 A. B. Gridnev PNPI

I

Very preliminary S11 M=1686(1.5) Γ tot =18.2 MeV Γ el =0.1 MeV Γ 2π =10.0 MeV Γ ήn =8.0 MeV Γ KΛ =0.1 MeV P11 M=1710(2.0) Γ tot =25.0 MeV Γ el =0.25 MeV Γ 2π =10.0 MeV Γ ήn =5.1 MeV Γ KΛ =0.25 MeV Γ KΣ =9.0 MeV

M=1686 S11 →P11→ χ 2 ↑ 15% M=1710 P11 →S11→ χ 2 ↑ 25% Another explanations (for η photoproduction) 1.Interference effects. Interference of well-known resonances Interference of S11(1650) and P11(1710). V. Shklyar, H. Lenske, U. Mosel, PLB650 (2007) 172 (Giessen group ) Interference of S11(1535) and S11(1650). A. Anisovich et al. EPJA 41, 13 (2009) (Bonn-Gatchina group); We not found such solution 2.Cusp effect M.Doring, K. Nakayama, PLB B683:145 (2010) We are working on this possibility I

The electromagnetic effects. Experimental check: π - p → elastic, η n, k Λ. Isospin symmetry π + n → elastic, η n, k Λ.

Благодарю за внимание! I