Date
July 17 (Fri) 15:00 - 16:30, 2026 (JST)
Speaker
  • Katsuyoshi Sone (Ph.D. Student, Graduate School of Science, Tokyo Metropolitan University)
Language
English
Host
Yan Lyu

The S-matrix describing the scattering process can be expressed in terms of projection operators onto the allowed spin–flavor channels and the corresponding phase shifts. Using the entanglement entropy in the spin space of the two-particle state, one can define the entanglement power, which quantifies the ability of the S-matrix to generate entanglement in the system. By investigating the conditions under which the entanglement power of the S-matrix is minimized, namely, the conditions for entanglement suppression, one can derive relations among the phase shifts in different spin–flavor channels. Furthermore, by comparing these relations with the interaction Lagrangian, one can identify the underlying symmetries [1,2].

In this work, we apply the entanglement suppression framework to two-baryon scattering involving spin-3/2 baryons in the flavor decuplet [3]. Lattice QCD calculations have shown that the spin-0 ΩΩ system exhibits scattering close to the unitary limit. Combining this result with the relation between the phase shifts obtained from entanglement suppression, we discuss the scattering behavior of the spin-2 ΩΩchannel.

References

  1. S.R. Beane, D. B. Kaplan N. Klco, and M. J. Savage., Phys. Rev. Lett. (2019), doi: 10.1103/PhysRevLett.122.102001, arXiv: 1812.03138
  2. I. Low and T. Mehen, PRD (2021), doi: 10.1103/PhysRevD.104.074014
  3. Tao-Ran Hu, Katsuyoshi Sone, Feng-Kun Guo, Tetsuo Hyodo, and Ian Low, PRR (2025), doi: 10.1103/x52w-4rbs, arXiv: 2506.08960

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