期刊
PHYSICAL REVIEW C
卷 84, 期 4, 页码 -出版社
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevC.84.045206
关键词
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资金
- GACR [202/09/1441]
- EU [227431]
A self-consistent scheme for constructing K-nuclear optical potentials from subthreshold in-medium (K) over bar N s-wave scattering amplitudes is presented and applied to analysis of kaonic atoms data and to calculations of K- quasibound nuclear states. The amplitudes are taken from a chirally motivated meson-baryon coupled-channel model, both at the Tomozawa-Weinberg leading order and at the next to leading order. Typical kaonic atoms potentials are characterized by a real part -Re V-K-(chiral) = 85 +/- 5 MeV at nuclear matter density, in contrast to half this depth obtained in some derivations based on in-medium (K) over bar N threshold amplitudes. The moderate agreement with data is much improved by adding complex rho- and rho(2)-dependent phenomenological terms, found to be dominated by rho(2) contributions that could represent (K) over bar NN -> YN absorption and dispersion, outside the scope of meson-baryon chiral models. Depths of the real potentials are then near 180 MeV. The effects of p-wave interactions are studied and found secondary to those of the dominant s-wave contributions. The in-medium dynamics of the coupled-channel model is discussed and systematic studies of K- quasibound nuclear states are presented.
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