We present the analysis of K− absorption processes on He4 leading to Λπ− final states, measured with the KLOE spectrometer at the DAΦNE e+e− collider and extract, for the first time, the modulus of the non-resonant K−n →Λπ− direct production amplitude about 33 MeV below the K‾N threshold. This analysis also allows to disentangle the K− nuclear absorption at-rest from the in-flight capture, for K− momenta of about 120 MeV. The data are interpreted with the help of a phenomenological model, and the modulus of the non-resonant K−n →Λπ− amplitude for K− absorption at-rest is found to be |AK−n→Λπ−|=(0.334±0.018stat−0.058+0.034syst)fm.

Piscicchia, K., Wycech, S., Fabbietti, L., Cargnelli, M., Curceanu, C., Del Grande, R., et al. (2018). First measurement of the K−n →Λπ− non-resonant transition amplitude below threshold. PHYSICS LETTERS. SECTION B, 782, 339-345 [10.1016/j.physletb.2018.05.025].

First measurement of the K−n →Λπ− non-resonant transition amplitude below threshold

Di Cicco, A.;Selce, A.
2018-01-01

Abstract

We present the analysis of K− absorption processes on He4 leading to Λπ− final states, measured with the KLOE spectrometer at the DAΦNE e+e− collider and extract, for the first time, the modulus of the non-resonant K−n →Λπ− direct production amplitude about 33 MeV below the K‾N threshold. This analysis also allows to disentangle the K− nuclear absorption at-rest from the in-flight capture, for K− momenta of about 120 MeV. The data are interpreted with the help of a phenomenological model, and the modulus of the non-resonant K−n →Λπ− amplitude for K− absorption at-rest is found to be |AK−n→Λπ−|=(0.334±0.018stat−0.058+0.034syst)fm.
2018
Piscicchia, K., Wycech, S., Fabbietti, L., Cargnelli, M., Curceanu, C., Del Grande, R., et al. (2018). First measurement of the K−n →Λπ− non-resonant transition amplitude below threshold. PHYSICS LETTERS. SECTION B, 782, 339-345 [10.1016/j.physletb.2018.05.025].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11590/345779
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