Probing the X(3700) through two-photon D D production in ultraperipheral collisions and at the EIC
Abstract
We investigate whether photon-induced production in ultraperipheral heavy-ion collisions and at the EIC can provide a new environment to search for the scalar D D molecular candidate usually denoted as X(3700). We calculate the tree-level amplitudes for γγ D+ D- and γγ D0 D0, dress the outgoing pair with a coupled-channel Bethe-Salpeter interaction in the (D+ D- , D0 D0) basis, and convolute the resulting subprocess cross sections with equivalent-photon spectra. In the adopted two-channel scenario the analytic continuation of the T-matrix gives a bound state at MX=3.7162~GeV, which is below the D0 D0 threshold. As a consequence of this, the observed signal in the continuum is not simply an isolated narrow peak, and a characteristic near-threshold line-shape distortion is produced: around 3.70 ≤ W ≤ 3.85~GeV the integrated dressed-to-bare ratios are (13.71,0.35) in Pb-Pb UPCs and (13.74,0.35) in e-Au collisions for (D+D-,D0 D0). Using the BABAR-fitted central normalization K dressed=0.382, the corresponding dressed cross sections are (24.6,14.6)~μ b in Pb-Pb UPCs and (2.41,1.43)~ nb at the EIC. The charged-to-neutral ratios are directly accessible observables, whereas the dressed-to-bare ratios provide theoretical diagnostics of the final-state interaction. The near-threshold features are controlled by the common γγ DD dynamics and are rather independent of the external photon source.
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