Production of doubly strange hypernuclei via - doorways in the 16O(K-, K+) reaction at 1.8 GeV/c

Abstract

We examine theoretically production of doubly strange hypernuclei, 16 -C and 16 C, in doublecharge exchange 16O(K-, K+) reactions using a distorted-wave impulse approximation. The inclusive K+ spectrum at the incident momentum pK- = 1.8 GeV/c and scattering angle θlab = 0 is estimated in a one-step mechanism, K-p K+- via - doorways caused by a -p- coupling. The calculated spectrum in the - bound region indicates that the integrated cross sections are on the order of 7-12 nb/sr for significant 1- excited states with 14C(0+, 2+) sp configurations in 16 C via the doorway states of the spin-stretched 15N(1/2-, 3/2-) s- in 16 -C due to a high momentum transfer q- ≈ 400 MeV/c. The - admixture probabilities of these states are on the order of 5-9%. However, populations of the 0+ ground state with 14C(0+) s2 and the 2+ excited state with 14C(2+) s2 are very small. The sensitivity of the spectrum on the N- coupling strength enables us to extract the nature of N- dynamics in nuclei, and the nuclear (K-, K+) reaction can extend our knowledge of the S = -2 world.