Pseudotensor mesons as three-body resonances

Abstract

We show that the lightest pseudotensor mesons JPC=2-+ can be regarded as molecules made of a pseudoscalar (P) 0-+ 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 pi2(1670), eta2(1645) and K*2(1770) (2-+) pseudotensor mesons.