High-resolution search for theΘ+pentaquark via a pion-induced reaction at J-PARC

Manabu Moritsu ,B Bassalleck,M Sekimoto,R Iwasaki,M J Kim,Y Igarashi,R Kiuchi,S Ishimoto,V V Kulikov,S Sawada,K Shirotori,K Imai,A Feliciello,S Marcello,S Ajimura,N Tomida,K Hosomi,K Tanida,K Matsuoka,A O Tokiyasu,K Itahashi,M Niiyama,P Evtoukhovitch,Z Tsamalaidze,S Suzuki,C J Yoon,M Agnello,T Takahashi,H Sako,Y Sato,S B Yang,Y Nozawa,T Nagae,F Hiruma,K Ozawa,S Bufalino,K Miwa,N Chiga,H Ekawa,M Ukai,A Sakaguchi,S Masumoto,E Botta,Yusuke Komatsu ,Shunsuke Kanatsuki ,Hitoshi Sugimura ,Hiroyuki Fujioka ,Shuhei Hayakawa ,Satoshi Adachi ,Susumu Sato ,Ryosuke Ota ,В Н Самойлов ,H Bhang ,Kenzô Yagi ,Ryumon Honda ,C Joo ,Nobuyuki Ishibashi ,Toshiyuki Tanaka ,Yukinori Yonemoto ,Yuki Matsumoto ,Katsumi Aoki ,Hajime Takahashi ,S J Kim,H Tamura,N Saito,M Sato,T O Yamamoto,H Noumi,M Ieiri,T Koike,Y Ichikawa,M Naruki,Kotaro Yoshida

doi:10.1103/physrevc.90.035205

Abstract

The pentaquark $\Theta^+$ has been searched for via the $\pi^-p \to K^-X$ reaction with beam momenta of 1.92 and 2.01 GeV/$c$ at J-PARC. A missing mass resolution of 2 MeV (FWHM) was achieved but no sharp peak structure was observed. The upper limits on the production cross section averaged over the scattering angle from 2$^{\circ}$ to 15$^{\circ}$ in the laboratory frame were found to be less than 0.28 $\mu$b/sr at the 90\% confidence level for both the 1.92- and 2.01-GeV/$c$ data. The systematic uncertainty of the upper limits was controlled within 10\%. Constraints on the $\Theta^+$ decay width were also evaluated with a theoretical calculation using effective Lagrangian. The present result implies that the width should be less than 0.36 and 1.9 MeV for the spin-parity of $1/2^+$ and $1/2^-$, respectively.

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