Lund University Publications

Measurement of the mesonic decay branch of the K̄ NN quasibound state

• Mark

Abstract

We conducted measurements of K-+He3→πYN+N′ reactions using a 1GeV/cK - beam, with the objective of understanding the broad decay width of K̄NN (approximately twice as broad as that of Λ(1405) considered to be the K̄N quasibound state). We successfully reproduced distributions of the πYN invariant mass and momentum transfer for πYN using model-fitting functions for K̄NN formation and quasifree K̄ absorption (QFK̄-abs) processes. The model can describe the experimental data quite well, and four K̄NN→πYN cross sections were obtained. The results indicate that mesonic decay is the dominant decay branch of K̄NN. The results also suggest that ΓπΛN≈ΓπςN, which indicates that the IK̄N=1 absorption channel, in addition to the IK̄N=0 absorption... (More)

We conducted measurements of K-+He3→πYN+N′ reactions using a 1GeV/cK - beam, with the objective of understanding the broad decay width of K̄NN (approximately twice as broad as that of Λ(1405) considered to be the K̄N quasibound state). We successfully reproduced distributions of the πYN invariant mass and momentum transfer for πYN using model-fitting functions for K̄NN formation and quasifree K̄ absorption (QFK̄-abs) processes. The model can describe the experimental data quite well, and four K̄NN→πYN cross sections were obtained. The results indicate that mesonic decay is the dominant decay branch of K̄NN. The results also suggest that ΓπΛN≈ΓπςN, which indicates that the IK̄N=1 absorption channel, in addition to the IK̄N=0 absorption channel, substantially contributes to the K̄NN decay, making the K̄NN state approximately twice as unstable as Λ(1405). © 2024 American Physical Society. (Less)