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$$\varUpsilon $$ and $$\eta _b$$ mass shifts in nuclear matter
We estimate the $\Upsilon$, $\eta_b$ and $B^*$ meson mass shifts in symmetric nuclear matter. The interest is, whether the strengths of the bottomonium-(nuclear matter) and charmonium-(nuclear
P o S ( P A N I C 2 0 2 1 ) 2 0 8 and ( b mass shifts in nuclear matter and the 12 C nucleus bound states
G. N. Zeminiani, J.J. Cobos-Martínez and K. Tsushima Laboratório de Física Teórica e Computacional, Universidade Cidade de São Paulo (UNICID), and Universidade Cruzeiro do Sul, 01506-000, São Paulo,
[1]Title: $\Upsilon$ and $\eta_b$ mass shifts in nuclear matter and the $^{12}$C nucleus bound states, [2]Title: $\Upsilon$ and $\eta_b$ mass shifts in nuclear matter and the nucleus bound states
G. N. Zeminiani, J.J. Cobos-Martínez and K. Tsushima Laboratório de Física Teórica e Computacional, Universidade Cidade de São Paulo (UNICID), and Universidade Cruzeiro do Sul, 01506-000, São Paulo,
2 . 11 38 1 v 1 [ he pph ] 2 1 D ec 2 02 0 LFTC-20-8 / 60 Υ and η b mass shifts in nuclear matter
We estimate, for the first time, the Υ and ηb mass shifts in symmetric nuclear matter. The estimate for the Υ is made using an SU(5) effective Lagrangian, studying the BB, BB, and BB meson loop
LFTC-22-1 / 69 Υ and η b nuclear bound states
Υ and ηb nuclear bound state energies are calculated for various nuclei neglecting any possible effects of the widths. Essential input for the calculations, namely the medium-modified B and B∗ meson