Radiative decays of X(3872) within D D* molecular framework

Abstract

Within the framework of nonrelativistic effective field theory, we calculate the radiative decay width of the process X(3872) D D γ while taking into account the DD final-state interactions. In this work, the X(3872), with the spin-parity quantum numbers JPC=1++, is treated as a D*D + c.c. bound state comprising equal proportions of neutral and charged components. Our numerical calculations predict the tree-level partial decay width of approximately 11.0 keV for the decay process X(3872) D0 D0γ, while the partial width for X(3872) D- D+γ is less than 1.0 keV. It is found that the DD rescattering effect enhances the tree-level width of X(3872) D0 D0γ by 6\%. In contrast, the rescattering effect makes a suppression to the charged channel X(3872) D- D+γ by roughly 38\%. We expect that the present predictions based on the molecular picture of the X(3872) can be tested by future experiments.

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