K--nucleus relativistic mean field potentials consistent with kaonic atoms

E. Friedman; A. Gal; J. Mareš; A. Cieplý

doi:10.1103/PhysRevC.60.024314

K^--nucleus relativistic mean field potentials consistent with kaonic atoms

E. Friedman^*, A. Gal, J. Mareš, A. Cieplý

^*Corresponding author for this work

Racah Institute of Physics

Research output: Contribution to journal › Article › peer-review

113 Scopus citations

Abstract

K^- atomic data are used to test several models of the K^- nucleus interaction. The t(ρ)ρ optical potential, due to coupled channel models incorporating the Λ(1405) dynamics, fails to reproduce these data. A standard relativistic mean field (RMF) potential, disregarding the Λ(1405) dynamics at low densities, also fails. The only successful model is a hybrid of a theoretically motivated RMF approach in the nuclear interior and a completely phenomenological density dependent potential, which respects the low density theorem in the nuclear surface region. This best-fit K^- optical potential is found to be strongly attractive, with a depth of 180±20 MeV at the nuclear interior, in agreement with previous phenomenological analyses.

Original language	English
Article number	024314
Pages (from-to)	243141-243147
Number of pages	7
Journal	Physical Review C - Nuclear Physics
Volume	60
Issue number	2
DOIs	https://doi.org/10.1103/PhysRevC.60.024314
State	Published - Aug 1999

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10.1103/PhysRevC.60.024314

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title = "K--nucleus relativistic mean field potentials consistent with kaonic atoms",

abstract = "K- atomic data are used to test several models of the K- nucleus interaction. The t(ρ)ρ optical potential, due to coupled channel models incorporating the Λ(1405) dynamics, fails to reproduce these data. A standard relativistic mean field (RMF) potential, disregarding the Λ(1405) dynamics at low densities, also fails. The only successful model is a hybrid of a theoretically motivated RMF approach in the nuclear interior and a completely phenomenological density dependent potential, which respects the low density theorem in the nuclear surface region. This best-fit K- optical potential is found to be strongly attractive, with a depth of 180±20 MeV at the nuclear interior, in agreement with previous phenomenological analyses.",

author = "E. Friedman and A. Gal and J. Mare{\v s} and A. Ciepl{\'y}",

year = "1999",

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doi = "10.1103/PhysRevC.60.024314",

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AU - Mareš, J.

AU - Cieplý, A.

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N2 - K- atomic data are used to test several models of the K- nucleus interaction. The t(ρ)ρ optical potential, due to coupled channel models incorporating the Λ(1405) dynamics, fails to reproduce these data. A standard relativistic mean field (RMF) potential, disregarding the Λ(1405) dynamics at low densities, also fails. The only successful model is a hybrid of a theoretically motivated RMF approach in the nuclear interior and a completely phenomenological density dependent potential, which respects the low density theorem in the nuclear surface region. This best-fit K- optical potential is found to be strongly attractive, with a depth of 180±20 MeV at the nuclear interior, in agreement with previous phenomenological analyses.

AB - K- atomic data are used to test several models of the K- nucleus interaction. The t(ρ)ρ optical potential, due to coupled channel models incorporating the Λ(1405) dynamics, fails to reproduce these data. A standard relativistic mean field (RMF) potential, disregarding the Λ(1405) dynamics at low densities, also fails. The only successful model is a hybrid of a theoretically motivated RMF approach in the nuclear interior and a completely phenomenological density dependent potential, which respects the low density theorem in the nuclear surface region. This best-fit K- optical potential is found to be strongly attractive, with a depth of 180±20 MeV at the nuclear interior, in agreement with previous phenomenological analyses.

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K^--nucleus relativistic mean field potentials consistent with kaonic atoms

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