Relativistic three-body calculations of a Y = 1, I=32, JP = 2 + πΛN-πσN dibaryon

H. Garcilazo; A. Gal

doi:10.1016/j.nuclphysa.2012.11.006

Relativistic three-body calculations of a Y = 1, I=32, J^P = ^{2 +} πΛN-πσN dibaryon

H. Garcilazo, A. Gal

Escuela Superior de Física y Matemáticas (ESFM)

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

13 Citas (Scopus)

Resumen

The πΛ. N-πσ. N coupled-channel system with quantum numbers (Y, I, J^P)=(1, 32, 2⁺) is studied in a relativistic three-body model, using two-body separable interactions in the dominant p-wave pion-baryon and S13 YN channels. Three-body equations are solved in the complex energy plane to search for quasibound state and resonance poles, producing a robust narrow πΛN resonance about 10-20 MeV below the πσN threshold. Viewed as a dibaryon, it is a S25 quasibound state consisting of σ(1385). N and δ(1232). Y components. Comparison is made between the present relativistic model calculation and a previous, outdated nonrelativistic calculation which resulted in a πΛN bound state. Effects of adding a K̄NN channel are studied and found insignificant. Possible production and decay reactions of this (Y,I,JP)=(1,32,2+) dibaryon are discussed.

Idioma original	Inglés
Páginas (desde-hasta)	167-178
Número de páginas	12
Publicación	Nuclear Physics, Section A
Volumen	897
DOI	https://doi.org/10.1016/j.nuclphysa.2012.11.006
Estado	Publicada - 2 ene. 2013

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title = "Relativistic three-body calculations of a Y = 1, I=32, JP = 2 + πΛN-πσN dibaryon",

abstract = "The πΛ. N-πσ. N coupled-channel system with quantum numbers (Y, I, JP)=(1, 32, 2+) is studied in a relativistic three-body model, using two-body separable interactions in the dominant p-wave pion-baryon and S13 YN channels. Three-body equations are solved in the complex energy plane to search for quasibound state and resonance poles, producing a robust narrow πΛN resonance about 10-20 MeV below the πσN threshold. Viewed as a dibaryon, it is a S25 quasibound state consisting of σ(1385). N and δ(1232). Y components. Comparison is made between the present relativistic model calculation and a previous, outdated nonrelativistic calculation which resulted in a πΛN bound state. Effects of adding a {\=K}NN channel are studied and found insignificant. Possible production and decay reactions of this (Y,I,JP)=(1,32,2+) dibaryon are discussed.",

keywords = "Dibaryons, Faddeev equations, Hyperon-nucleon interactions, Pion-baryon interactions",

author = "H. Garcilazo and A. Gal",

note = "Funding Information: The research of H.G. is supported in part by COFAA-IPN (M{\'e}xico) and the research of A.G. by the HadronPhysics3 networks SPHERE and LEANNIS of the European FP7 initiative.",

year = "2013",

month = jan,

day = "2",

doi = "10.1016/j.nuclphysa.2012.11.006",

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T1 - Relativistic three-body calculations of a Y = 1, I=32, JP = 2 + πΛN-πσN dibaryon

AU - Garcilazo, H.

AU - Gal, A.

N1 - Funding Information: The research of H.G. is supported in part by COFAA-IPN (México) and the research of A.G. by the HadronPhysics3 networks SPHERE and LEANNIS of the European FP7 initiative.

PY - 2013/1/2

Y1 - 2013/1/2

N2 - The πΛ. N-πσ. N coupled-channel system with quantum numbers (Y, I, JP)=(1, 32, 2+) is studied in a relativistic three-body model, using two-body separable interactions in the dominant p-wave pion-baryon and S13 YN channels. Three-body equations are solved in the complex energy plane to search for quasibound state and resonance poles, producing a robust narrow πΛN resonance about 10-20 MeV below the πσN threshold. Viewed as a dibaryon, it is a S25 quasibound state consisting of σ(1385). N and δ(1232). Y components. Comparison is made between the present relativistic model calculation and a previous, outdated nonrelativistic calculation which resulted in a πΛN bound state. Effects of adding a K̄NN channel are studied and found insignificant. Possible production and decay reactions of this (Y,I,JP)=(1,32,2+) dibaryon are discussed.

AB - The πΛ. N-πσ. N coupled-channel system with quantum numbers (Y, I, JP)=(1, 32, 2+) is studied in a relativistic three-body model, using two-body separable interactions in the dominant p-wave pion-baryon and S13 YN channels. Three-body equations are solved in the complex energy plane to search for quasibound state and resonance poles, producing a robust narrow πΛN resonance about 10-20 MeV below the πσN threshold. Viewed as a dibaryon, it is a S25 quasibound state consisting of σ(1385). N and δ(1232). Y components. Comparison is made between the present relativistic model calculation and a previous, outdated nonrelativistic calculation which resulted in a πΛN bound state. Effects of adding a K̄NN channel are studied and found insignificant. Possible production and decay reactions of this (Y,I,JP)=(1,32,2+) dibaryon are discussed.

KW - Dibaryons

KW - Faddeev equations

KW - Hyperon-nucleon interactions

KW - Pion-baryon interactions

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DO - 10.1016/j.nuclphysa.2012.11.006

M3 - Artículo

SN - 0375-9474

VL - 897

SP - 167

EP - 178

JO - Nuclear Physics, Section A

JF - Nuclear Physics, Section A

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