Dynamical generation of charmonium-like tetraquarks in an off-shell coupled-channel formalism

Abstract

We investigate the dynamical generation of charmonium-like (I=0) with spin-parity JPC=0++, 1++, 2++, and 3-- in the mass range of 3.6 to 4.3 GeV. We employ the off-shell coupled-channel formalism, constructing kernel amplitudes from effective Lagrangians that respect heavy-quark spin-flavor and chiral symmetries. To focus solely on dynamically generated states, we explicitly exclude s-channel pole diagrams and include only t- and u-channel meson exchanges. Solving the integral equations, we identify six poles in the complex energy plane. In the scalar (0++) sector, we find a bound state below the DD threshold and a resonance at sR=(3861-i\,23)\,MeV. For the axial-vector (1++) sector, the experimentally observed c1(3872) is reproduced as a bound state near the DD* threshold, alongside a broader resonance at (3961-i\,32)\,MeV, which is a plausible candidate for the X(3940). Furthermore, we find a narrow tensor (2++) state at 4005\,MeV and a vector (3--) state at 4030\,MeV. The present results demonstrate that coupled-channel dynamics, particularly involving the D*D* channel, play a crucial role in the formation of these charmonium-like exotic states.

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