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A survey of heavy-heavy hadronic molecules

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arxiv 2108.02673 v3 pith:IIGQBXVJ submitted 2021-08-05 hep-ph hep-exhep-lat

A survey of heavy-heavy hadronic molecules

classification hep-ph hep-exhep-lat
keywords moleculeshadronicheavy-heavyheavy-antiheavystatesexperimentalcharmedlhcb
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The spectrum of hadronic molecules composed of heavy-antiheavy charmed hadrons has been obtained in our previous work. The potentials are constants at the leading order, which are estimated from resonance saturation. The experimental candidates of hadronic molecules, say $X(3872)$, $Y(4260)$, three $P_c$ states and $P_{cs}(4459)$, fit the spectrum well. The success in describing the pattern of heavy-antiheavy hadronic molecules stimulates us to give more predictions for the heavy-heavy cases, which are less discussed in literature than the heavy-antiheavy ones. Given that the heavy-antiheavy hadronic molecules, several of which have strong experimental evidence, emerge from the dominant constant interaction from resonance saturation, we find that the existence of many heavy-heavy hadronic molecules is natural. Among these predicted heavy-heavy states we highlight the $DD^*$ molecule and the $D^{(*)}\Sigma_c^{(*)}$ molecules, which are the partners of the famous $X(3872)$ and $P_c$ states. Quite recently, LHCb collaboration reported a doubly charmed tetraquark state, $T_{cc}$, which is in line with our results for the $DD^*$ molecule. With the first experimental signal of this new kind of exotic states, the upcoming 3pdate of the LHCb experiment as well as other experiments will provide more chances of observing the heavy-heavy hadronic molecules.

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Cited by 5 Pith papers

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  1. Systematic Study of Coupled-Channel Dynamics in Doubly Heavy Hadronic Molecules

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  2. Analysis of the $D_0^*(2300)$ resonance from lattice QCD under chiral symmetry

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  3. Exploring $K\Xi^*$ and $K^*\Xi$ molecular states and the triangle singularity in the $K^- p \to K \Xi(1530)$ reaction

    hep-ph 2026-06 unverdicted novelty 5.0

    Proposes that a K* Ξ molecular state (Λ(2150)) generates a triangle singularity explaining the peak in K- p → K Ξ(1530), with distinct spin density matrix element variations as a testable signature.

  4. A possible $\Sigma^*$ or $\Lambda^*$ resonance with $J^P=3/2^-$ in $K^-p\to K\Xi$ scattering

    hep-ph 2026-05 unverdicted novelty 5.0

    A J^P=3/2- hyperon resonance at ~1.9 GeV is added to an effective Lagrangian fit of K- p to K Xi cross sections, with the Lambda* assignment preferred over Sigma* by polarization predictions.

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    hep-ph 2026-04 unverdicted novelty 5.0

    Coupled-channel calculations show Pc and Pcs states as molecular bound states with RMS radii 0.5-2 fm when heavy-quark spin symmetry is respected across all channels.