论文信息 - Branching Ratio of the Electromagnetic Decay of the Σ+(1385) - 字舞流文

Branching Ratio of the Electromagnetic Decay of the Σ+(1385)

The CLAS detector was used to obtain the first ever measurement of the electromagnetic decay of the Sigma*(+)(1385) from the reaction gamma p -> K-0 Sigma*(+)(1385). A real photon beam with a maximum energy of 3.8 GeV was incident on a liquid-hydrogen target, resulting in the photoproduction of the kaon and Sigma* hyperon. Kinematic fitting was used to separate the reaction channel from the background processes. The fitting algorithm exploited a new method to kinematically fit neutrons in the CLAS detector, leading to the measured decay widths ratio Sigma(+)(1385)->Sigma(+)gamma/Sigma(+)(1385)->Sigma(+)pi(0)=11.95 +/-.2.21(stat)(-1.21)(+0.53)(sys)%and a deduced partial width of 250.0 +/- 56.9(stat)(-41.2)(+34.3)(sys) keV. AU-spin symmetry test using the SU(3) flavor-multiplet representation yields predictions for the Sigma*(+)(1385)->Sigma(+)gamma and Sigma*(0)(1385)->Lambda gamma partial widths that agree with the experimental measurements.

A. Alaoui | W. Brooks | H. Hakobyan | S. Kuleshov | Y. Mao | A. Biselli | P. Cole | G. Smith | G. Rosner | N. Guler | D. Rimal | L. Pappalardo | S. Pisano | C. Salgado | P. Stoler | M. Gabrielyan | D. Protopopescu | B. Raue | M. Anghinolfi | M. Battaglieri | R. Vita | M. Ripani | M. Taiuti | G. Ricco | M. Khandaker | V. Burkert | L. Guo | W. Tang | M. Holtrop | F. Klein | D. Branford | D. Watts | D. Ireland | A. D’angelo | M. Guidal | B. Ritchie | C. Meyer | R. Schumacher | D. Sober | D. Doughty | P. Khetarpal | V. Crede | P. Eugenio | A. Ostrovidov | E. Smith | G. Gilfoyle | A. Vlassov | H. Moutarde | B. Ishkhanov | P. Nadel-Turonski | W. Briscoe | C. E. Taylor | C. Djalali | E. Voutier | M. Contalbrigo | D. Keller | L. Fassi | M. Saini | A. Celentano | I. Macgregor | L. Zana | Y. Prok | V. Kubarovsky | E. Pasyuk | M. Wood | I. Niculescu | A. Daniel | K. Park | H. Baghdasaryan | S. Stepanyan | M. Paolone | Y. Ilieva | S. Strauch | N. Zachariou | L. Elouadrhiri | N. Gevorgyan | K. Griffioen | A. Kubarovsky | S. Niccolai | R. Paremuzyan | D. Sokhan | M. Mirazita | E. Sanctis | R. Dupré | B. Mckinnon | H. Jo | M. Amaryan | S. Procureur | M. Osipenko | F. Sabatié | K. Giovanetti | W. Gohn | W. Kim | B. Zhao | C. Bookwalter | P. Rossi | D. Carman | J. Ball | I. Bedlinskiy | S. Boiarinov | N. Dashyan | G. Fedotov | R. Gothe | K. Hafidi | E. Isupov | K. Joo | H. Lu | N. Markov | R. Nasseripour | G. Niculescu | O. Pogorelko | S. Pozdniakov | Y. Sharabian | S. Tkachenko | M. Vineyard | Z. Zhao | V. Mokeev | K. Hicks | A. Kim | T. Mineeva | H. Voskanyan | K. Adhikari | S. Pereira | S. Chandavar | E. Golovatch | E. Munevar | S. Park | D. Schott | M. Mayer | L. Graham | H. Seraydaryan | B. Vernarsky | D. Adikaram | I. MacGregor | A. D’Angelo | Lamiaa El Fassi | B. McKinnon | C. E. Taylor | K. Joo | M. Wood | H. Jo | P. Rossi | C. Meyer

[1] L. Guo,et al. FOR THE CLAS COLLABORATION , 2006 .

[2] J. McNabb. Photoproduction of Λ and Σ0 Hyperons off Protons in the Nucleon Resonance Region using CLAS at Jefferson Lab , 2002 .

[3] For the SELEX Collaboration , 2002 .

[4] Hayes,et al. Review of particle properties. , 1978, Physical review. D, Particles and fields.