First Measurement of the K- Escape Cross Section in the 12 C(K-,p) Reaction

Abstract

We investigated the K-nucleus interaction through the simultaneous measurement of the inclusive 12 C(K-, p) and exclusive K--escape 12 C(K-, p K-esc) reactions at 1.8 GeV/c at J-PARC. The present measurement explicitly focuses on the K- escape process for the first time, successfully accomplishing a direct experimental determination of the imaginary part of the K- optical potential. The differential cross section for the K--escape reaction was determined to be 436 6\:(stat.) 44\:(syst.)~μb/sr. A simultaneous likelihood fit yielded real and imaginary potential strengths of V0 = -72\:+3-5\:(stat.)\:+0-8\:(syst.)~MeV and W0 = -100\:+7-1\:(stat.)\:+0-16\:(syst.)~MeV at the nuclear center, respectively. The derived W0 is significantly stronger than that predicted by theoretical models based on one-nucleon processes, suggesting possible contribution of multi-nucleon involving processes.