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W2015753026 abstract "We show that the lightest pseudotensor mesons ${J}^{mathrm{PC}}={2}^{ensuremath{-}+}$ can be regarded as molecules made of a pseudoscalar $(P)$ ${0}^{ensuremath{-}+}$ and a tensor ${2}^{++}$ meson, where the latter is itself made of two vector ($V$) mesons. The idea stems from the fact that the vector-vector interaction in $s$ wave and spin 2 is very strong, to the point of generating the ${2}^{++}$ tensor mesons. On the other hand the interaction of a pseudoscalar with a vector meson in $s$ wave is also very strong and it generates dynamically the lightest axial-vector mesons. Therefore we expect the $PVV$ interaction to be strongly attractive and thus able to build up quasibound $PVV$ resonances. We calculate the three-body $PVV$ interaction by using the fixed center approximation to the Faddeev equations where the two vectors are clustered forming a tensor meson. We find clear resonant structures which can be identified with the ${ensuremath{pi}}_{2}(1670)$, ${ensuremath{eta}}_{2}(1645)$ and ${K}_{2}^{*}(1770)$ (${2}^{ensuremath{-}+}$) pseudotensor mesons." @default.
W2015753026 created "2016-06-24" @default.
W2015753026 creator A5009264109 @default.
W2015753026 date "2011-11-08" @default.
W2015753026 modified "2023-10-16" @default.
W2015753026 title "Pseudotensor mesons as three-body resonances" @default.
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W2015753026 doi "https://doi.org/10.1103/physrevd.84.094006" @default.
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