Literature DB >> 23005280

Well-established nucleon resonances revisited by double-polarization measurements.

A Thiel1, A V Anisovich, D Bayadilov, B Bantes, R Beck, Yu Beloglazov, M Bichow, S Böse, K-Th Brinkmann, Th Challand, V Crede, F Dietz, P Drexler, H Dutz, H Eberhardt, D Elsner, R Ewald, K Fornet-Ponse, St Friedrich, F Frommberger, Ch Funke, M Gottschall, M Grüner, E Gutz, Ch Hammann, J Hannappel, J Hartmann, W Hillert, Ph Hoffmeister, Ch Honisch, I Jaegle, I Jürgensen, D Kaiser, H Kalinowsky, F Kalischewski, S Kammer, I Keshelashvili, V Kleber, F Klein, E Klempt, B Krusche, M Lang, I Lopatin, Y Maghrbi, K Makonyi, V Metag, W Meyer, J Müller, M Nanova, V Nikonov, R Novotny, D Piontek, G Reicherz, A Sarantsev, Ch Schmidt, H Schmieden, T Seifen, V Sokhoyan, V Sumachev, U Thoma, H Vanpee, D Walther, Ch Wendel, U Wiedner, A Wilson, A Winnebeck, Y Wunderlich.   

Abstract

The first measurement is reported of the double-polarization observable G in the photoproduction of neutral pions off protons, covering the photon energy range from 620 to 1120 MeV and the full solid angle. G describes the correlation between the photon polarization plane and the scattering plane for protons polarized along the direction of the incoming photon. The observable is highly sensitive to contributions from baryon resonances. The new results are compared to the predictions from SAID, MAID, and BnGa partial wave analyses. In spite of the long-lasting efforts to understand γp→pπ(0) as the simplest photoproduction reaction, surprisingly large differences between the new data and the latest predictions are observed which are traced to different contributions of the N(1535) resonance with spin parity J(P)=1/2(-) and N(1520) with J(P)=3/2(-). In the third resonance region, where N(1680) with J(P)=5/2(+) production dominates, the new data are reasonably close to the predictions.

Year:  2012        PMID: 23005280     DOI: 10.1103/PhysRevLett.109.102001

Source DB:  PubMed          Journal:  Phys Rev Lett        ISSN: 0031-9007            Impact factor:   9.161


  2 in total

Review 1.  QCD and strongly coupled gauge theories: challenges and perspectives.

Authors:  N Brambilla; S Eidelman; P Foka; S Gardner; A S Kronfeld; M G Alford; R Alkofer; M Butenschoen; T D Cohen; J Erdmenger; L Fabbietti; M Faber; J L Goity; B Ketzer; H W Lin; F J Llanes-Estrada; H B Meyer; P Pakhlov; E Pallante; M I Polikarpov; H Sazdjian; A Schmitt; W M Snow; A Vairo; R Vogt; A Vuorinen; H Wittig; P Arnold; P Christakoglou; P Di Nezza; Z Fodor; X Garcia I Tormo; R Höllwieser; M A Janik; A Kalweit; D Keane; E Kiritsis; A Mischke; R Mizuk; G Odyniec; K Papadodimas; A Pich; R Pittau; J-W Qiu; G Ricciardi; C A Salgado; K Schwenzer; N G Stefanis; G M von Hippel; V I Zakharov
Journal:  Eur Phys J C Part Fields       Date:  2014-10-21       Impact factor: 4.590

2.  Measurement of the helicity asymmetry E for the reaction γ p π 0 p : The CBELSA/TAPS Collaboration.

Authors:  M Gottschall; F Afzal; A V Anisovich; D Bayadilov; R Beck; M Bichow; K Th Brinkmann; V Crede; M Dieterle; F Dietz; H Dutz; H Eberhardt; D Elsner; R Ewald; K Fornet-Ponse; St Friedrich; F Frommberger; A Gridnev; M Grüner; E Gutz; Ch Hammann; J Hannappel; J Hartmann; W Hillert; Ph Hoffmeister; Ch Honisch; T Jude; S Kammer; H Kalinowsky; I Keshelashvili; P Klassen; F Klein; E Klempt; K Koop; B Krusche; M Kube; M Lang; I Lopatin; P Mahlberg; K Makonyi; V Metag; W Meyer; J Müller; J Müllers; M Nanova; V Nikonov; R Novotny; D Piontek; G Reicherz; T Rostomyan; A Sarantsev; Ch Schmidt; H Schmieden; T Seifen; V Sokhoyan; K Spieker; A Thiel; U Thoma; M Urban; H van Pee; D Walther; Ch Wendel; D Werthmüller; U Wiedner; A Wilson; A Winnebeck; L Witthauer; Y Wunderlich
Journal:  Eur Phys J A Hadron Nucl       Date:  2021-01-28       Impact factor: 3.043
  2 in total

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