Comment on "Do near-threshold molecular states mix with neighboring QQ states?"

Abstract

I comment on a paper by Christoph Hanhart and Alexey Nefediev, published in Phys. Rev. D 106, 114003 (2022). The authors discuss the interpretation of mesons close to their lowest decay threshold and present a mechanism for the formation of molecular states. The proposed formalism is then applied to the axial-vector mesons Ds1(2536) and Ds1(2460), presenting two scenarios for the lighter meson, namely a D K molecule or a compact cs state. The authors argue that the latter hypothesis requires a fine-tuning of the mixing angle between the JPC=1++ and JPC=1+- C-parity eigenstates. In this Comment I show that no such fine-tuning is needed, as demonstrated in an article published in Phys. Rev. D 84, 094020 (2011), where a unitarized quark model was applied to the two C-parity eigenstates, coupled to several two-meson channels including D K. The coupled-channel dynamics naturally leads to a mixing angle very close to the required one. Moreover, I argue that the D1(2420) and D1(2430) axial-vectors, not considered by the authors, as well as a lattice simulation in Phys. Rev. D 90, 034510 (2014), also not mentioned by the authors, do not lend support to a molecular interpretation of the Ds1(2460). I conclude with some more general remarks about mesons coupling to S-wave thresholds.