Speaker
Prof.
Tomofumi Nagae
(Kyoto University)
Description
We have measured an excitation energy spectrum of the $^{12}$C($K^-,K^+$)X reaction at 1.8 GeV/c with an energy resolution of 5.4 MeV (FWHM), which is the best energy resolution ever achieved in studying this reaction. The measurement was performed at the K1.8 beam line of the J-PARC hadron experimental hall by using the SKS spectrometer, as a pilot run of J-PARC E05 experiment. The K- beam intensity at the primary proton beam power of 39 kW was typically 6x10$^5$/spill with 5.5-sec. beam cycle. The energy resolution was estimated from the peak observed in the p(K-,K+)Ξ- reaction from a 9.54-g/cm$^2$ CH$_2$ target. We took the data on the $^{12}$C($K^-,K^+$)X reaction with a 9.4-g/cm$^2$ C target for about 10 days. We have observed about 60k events of quasi-free $\Xi^-$ production, and several tens of events in the bound region. While the analysis is near the final stage, we can see clear enhancements in the bound region above a flat background. Fitting to the enhancements with a f
ew models suggest that the binding energy of $^{12}_\Xi$Be would be larger than the previously estimated value of about 4.5 MeV.
Primary author
Prof.
Tomofumi Nagae
(Kyoto University)