-
Dr Wren Yamada (RIKEN)20/02/2026, 13:40
The $\bar{D}N$ system is one of the most fundamental systems involving charmed mesons and nucleons. However, experimental data are scarce, and effective models do not constrain the low-energy scattering parameters well. I will report the results of my analysis on the "HAL-conf-2023" LQCD data concerning the $\bar{D}N$ channel.
Go to contribution page -
Yuki Kamiya (Yukawa Institute for Theoretical Physics, Kyoto University)20/02/2026, 14:20
The femtoscopic study using the momentum correlation function from the high-energy collisions provides new insights for the hadron interactions. The correlation function is known to be sensitive to the low-energy interaction and the particle emission source. In addition, the femtoscopy approach is advantageous for the charm sector which is not easily studied by the traditional scattering...
Go to contribution page -
Makoto Takizawa (Showa Pharmaceutical University)20/02/2026, 15:30
We study the D\bar{D}^, DD^, and B\bar{B}^* correlation functions and discuss the structure of the associated exotic hadrons.
Go to contribution page -
Koichi Murase (RCNP, the University of Osaka)20/02/2026, 16:10
Recently, femtoscopy has gathered attention as a new approach to
Go to contribution page
access hadron--hadron interactions through momentum correlation functions. In particular, the $s$-wave interaction has been extensively discussed in the field. In this talk, we discuss the effect of interactions in higher partial waves on the femtoscopic correlation function. We first attempt to extend existing $s$-wave... -
20/02/2026, 16:50
-
Choose timezone
Your profile timezone: