Last year, the
state, which is cataloged in the Particle Data Group (PDG) with only one star, was reported again in the
final state by the Belle Collaboration. Its properties, such as the spectroscopy and decay width, cannot be simply explained in the context of conventional constituent quark models. This inspires an active discussion on the structure of this resonance. In this paper, we study the radiative decays of the newly observed
assuming that it is a meson-baryon molecular state of
and
with spin-parity
developed in our previous study. The partial decay widths of the
molecular state into
and
final states through hadronic loops are evaluated using effective Lagrangians. The partial widths for
is evaluated to be approximately
keV, which may be accessible for the LHCb experiment. If
is a
molecule, the radiative transition strength
is considerably small and the decay width is of the order of 0.01 eV. Future experimental measurements of these processes can be useful to test the molecule interpretations of the
.
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