Unconventional Baryonic and Mesonic States

The search for and investigation of unconventional baryonic and mesonic states is a topical issue in current hadron physics, for example [1–5] and references therein. This is much focused on the sector of c and b quarks, but there are also well known issues in the light quark sector [6], and there are similarities between c and s sectors. The interesting parallels between c and s sectors include the tetra-quark X(3872), a possible DD* configuration, and pentaquark P_c(4380/4450) candidates [7], possibly (D*Σ_c) or (D*Λ*_c) configurations. The mesonic and baryonic states could be considered analogues of each other when a color antitriplet in the meson (q) is replaced by another one in the baryon (qq). This appears expandable upon the strange-sector: in the meson sector with the f₁(1285) as a bound state of K and K* close to threshold, in the baryon sector the N*(2030) and N*(2080), two states earlier listed in the PDG and suggested in [8] to be associated with the cusp-like structure observed in K⁰_SΣ⁺ photoproduction at the K* threshold [9]. This situation is compiled in Table 1.

Tab. 1: Overview of possible parallels between meson and baryon states in (hidden) c and s quark sectors.

The interpretation of Ref. [8] leads to a remarkable prediction. The destructive interference of amplitudes driven by intermediate K*Λ and K*Σ channels is magnified by the presence of the N*(2030) resonance, and thereby causes the cusp-like structure in the γp →K⁰_SΣ⁺ cross section around 2 GeV. Contrary, for the reaction γn →K⁰Σ⁰, this interference is mitigated by the dominance of the amplitude that drives the intermediate K*Σ channel, and gives rise to a resonance peak in the spectrum. This would be a smoking gun signal for these meson-baryon states to exist.

Recently the idea was brought up in addition that, as a dominant K*⁻Σ structure, this same N*(2030) state, could drive the photoproduction of K⁺Λ(1405) via a triangle singularity [12], such that not only the Λ(1405) in itself represents a possible object of interest in the given context, but also the mechanism of photoproduction to shed more light on the molecular type interactions in the vicinity of the K*Y thresholds.
Generally, meson-baryon interactions could be expected to show up not only at the K* threshold, but at every threshold when the relative momenta are sufficiently small. Fig. 1 shows photoproduction thresholds and indicates peculiarities which are experimentally observed and might be associated with meson-baryon interaction effects. It also illustrates that the region of the K* threshold is of particular interest, due to the numerous close-by thresholds within an energy interval of only 12 MeV.

Fig. 1: Overview of production/decay thresholds.

Our results hitherto obtained indeed provide support for such unconventional structures to exist. Highlights include:

Measurements of K⁺Λ_g.s. photoproduction at very forward K⁺angles. The results extend the kinematic coverage of earlier experiments and are consistent with partial wave analyses based on those results. The significant normalisation discrepancy among previous measurements is resolved.
Λ(1405) line shape in the pure isospin I = 0 π⁰Σ⁰ decay and its mechanism of photoproduction. In both we find general agreement with previous measurements. New results include the direct indication of a possible double peak structure in the pure I = 0 line shape and, based on the extended kinematic coverage, the involvement of a triangle singularity in the production process which in itself is driven by the above mentioned N*(2030) possibly pentaquark type state.
A cusp-like structure is revealed in K⁺Σ⁰_g.s. photoproduction off the proton. It is shown that the effect becomes more pronounced as the K+ goes extremely forward, i.e. the momentum transfer to the hadronic system remains minimal. A preliminary partial wave analysis of the Bonn-Gatchina PWA group indicates this might be associated with a previously unobserved narrow JP = (5/2)⁻ isospin 3/2 structure of under 60 MeV width. The cusp in forward direction is consistent in transverse momentum with the kinematics of the Sphinx experiment [13], where indication of an X(2000) state was reported. This was hypothesised a pentaquark candidate but hitherto remained unseen in photoproduction experiments.
For the first time the smoking gun experiment in K⁰_SΣ⁰ photoproduction off the neutron has been successfully conducted. Within the still limited statistics a peak structure is indeed indicated at the K* threshold, consistent with the prediction of Ref. [8] of a structure similar to the pentaquarks observed at LHCb. Firm conclusions require improved statistics, however.

[1] R. Aaij et al. (LHCb Collaboration), Phys. Rev. Lett. 122 (2019) 222001, e-print: 1904.03947 [hep-ex]
[2] R. Aaij et al. (LHCb Collaboration), Phys. Rev. Lett. 115 (2015) 072001, e-print: 1507.03414 [hep-ex]
[3] H.-X. Chen et al., Phys. Rept. 639 (2016) 1
[4] S.-K. Choi et al. (Belle Collaboration), Phys. Rev. Lett. 91 (2003) 262001, e-print: hep-ex/0309032 [hep-ex]
[5] Y.-R. Liu et al., Prog. Part. Nucl. Phys. 107 (2019) 237, e-print: 1903.11976 [hep-ex]
[6] L.Ya. Glozman and D.O. Riska, Physics Reports 268 (1996) 263
[7] T.J. Burns, Eur. Phys. J. A 51 (2015) 152
[8] A. Ramos and E. Oset, Phys. Lett. B 727 (2013) 287