Low-energy Nφ scattering from a pole-enhanced triangle diagram

Abstract

We investigate low-energy Nφ scattering driven by a pole-enhanced triangle-like diagram, in which the two-Kaon-exchange contribution is promoted by the near-threshold (1405) pole in the N K subsystem. Using an unphysical Kaon mass motivated by lattice simulations, we evaluate the Nφ scattering length and find that this mechanism generates an attractive interaction with a magnitude of -1.1 to -0.5\, fm. Spin-dependent effects are not treated explicitly and are expected to provide subleading corrections in the near-threshold region. We further analyze the low-energy behavior of the triangle-like diagram amplitude and show that the scattering length depends on the parameter δ, defined as the mass difference between the K K threshold and the φ meson, and the pole position of (1405), where the (1405) plays a crucial role to understand Nφ interaction. Furthermore, by employing physical hadron masses, our calculated scattering length is found to be consistent with current experimental data, providing a unified description across both unphysical and physical mass regimes. This type of interaction differs from that associated with van der Waals-type forces or the long-range tail of two-pion exchange, highlighting the role of three-body dynamics encoded in the pole-enhanced triangle-like diagram in shaping the near-threshold Nφ interaction.