Nonmesonic weak decay dynamics from proton spectra of Lambda-hypernuclei
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Data
2014-12-01
Autores
Krmpotic, Franjo [UNESP]
Conti, Claudio de [UNESP]
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Editor
World Scientific Publ Co Pte Ltd
Resumo
A novel comparison between the data and the theory is proposed for the nonmesonic (NM) weak decay of hypernuclei. Instead of confronting the primary decay rates, as is usually done, we focus our attention on the effective decay rates that are straightforwardly related with the number of emitted particles. Proton kinetic energy spectra of (5)(Lambda) He, (7)(Lambda) Li, (9)(Lambda) Be, (11)(Lambda) B, (12)(Lambda) C, (13)(Lambda) C, (15)(Lambda) N and (16)(Lambda) O, measured by FINUDA, are evaluated theoretically. The independent particle shell model (IPSM) is used as the nuclear structure framework, while the dynamics is described by the one-meson-exchange (OME) potential. Only for the (5)(Lambda) He, (7)(Lambda) Li and (12)(Lambda) C hypernuclei it is possible to make a comparison with the data, since for the rest there is no published experimental information on number of produced hypernuclei. Considering solely the one-nucleon-induced (1N-NM) decay channel, the theory reproduces correctly the shapes of all three spectra at medium and high energies (E-p greater than or similar to 40MeV). Yet, it greatly overestimates their magnitudes, as well as the corresponding transition rates when the full OME (pi + K +eta+rho+omega+ K*) model is used. The agreement is much improved when only the pi + K mesons with soft dipole cutoff parameters participate in the decay process. We find that the IPSM is a fair first-order approximation to disentangle the dynamics of the 1N-NM decay, the knowledge of which is indispensable to inquire about the baryon-baryon strangeness-flipping interaction. It is shown that the IPSM provides very useful insights regarding the determination the 2N-NM decay rate. In a new analysis of the FINUDA data, we derive two results for this quantity with one of them close to that obtained previously.
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Hypernuclei, Hyperon-nucleon interaction, Nuclear structure models and methods
Como citar
International Journal Of Modern Physics E-nuclear Physics. Singapore: World Scientific Publ Co Pte Ltd, v. 23, n. 12, p. 1-25 p., 2014.