Abstract
We study the photo- and electro-productions of the vector kaon off the proton, i.e., $\gamma^{(*)}p\to K^{*+}\pi^0\Sigma^0$, and investigate the line shape of the $\pi^0\Sigma^0$ invariant mass in an effective Lagrangian approach with the inclusion of a $K^*N\Lambda^*$ interaction. Relevant electromagnetic form factors for the neutral hyperons and charged strange mesons are constructed by considering experimental and theoretical information. We find that the $\Lambda^*$ peak is clearly observed for the photo- and electro-productions with the finite $K^*N\Lambda^*$ interaction, whereas the clear peak signals survive only for the electro-production, when we ignore the interaction. These different behaviors can be understood by different $Q^2$ dependences in the $K^*$ electromagnetic and $K^*\to\gamma K$ transition form factors. We suggest a photon-polarization asymmetry $\Sigma$ to extract information of the $K^*N\Lambda^*$ interaction. It turns out that $\Sigma$ near the $\Lambda^*$ peak region becomes negative with a finite $K^*N\Lambda^*$ interaction while positive without it for $Q^2 = 0$, due to the different naturalities of $K$ and $K^*$ exchanges. For $Q^2\ne 0$, we observe more obvious signals in the peak region due to the additional contribution of the longitudinal virtual photon for $\Lambda^*$.
Highlights
Hadron spectroscopy is one of the most active fields to understand the nature of the low-energy strong interactions of quarks and gluons, being governed by quantum chromodynamics (QCD)
We study the photoproduction and electroproductions of the vector kaon off the proton, i.e., γ (∗) p → K∗+π 0 0, and investigate the line shape of the π 0 0 invariant mass in an effective Lagrangian approach with the inclusion of a K∗N ∗ interaction
In the low-energy region, it is believed that chiral symmetry plays an important role, which provides nontrivial mechanisms to generate the masses of hadrons as known by spontaneous breakdown of chiral symmetry (SBCS)
Summary
Hadron spectroscopy is one of the most active fields to understand the nature of the low-energy (nonperturbative) strong interactions of quarks and gluons, being governed by quantum chromodynamics (QCD). In our previous work [6], this distinctive feature of the invariant-mass line shape was explained by the different interference pattern from the electromagnetic (EM) form factors of the two poles: The interference between the two poles becomes constructive, resulting in the two bumps appearing near the higher and lower pole positions. We would like to investigate the interference effects of the two poles and the invariant-mass line shapes carefully, in a different production-reaction process with the vector kaon (K∗), i.e., γ (∗) p → K∗+π 0 0. Because there are so far only a limited experimental data for K∗ productions, many of our results shown here are predictions and provide a guideline for the future experiments This reaction process can be performed experimentally by the LEPS (Laser Electron Photon beam-line at SPring-8) at SPring-8 (Super Photon Ring - 8 GeV) and CLAS collaborations in the future.
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