Deuteron-Deuteron Interaction and Correlation Function
Abstract
The interaction between deuterons (d-d) is pivotal for understanding the characteristics of certain light nuclei from the perspective of the deuteron cluster and achieving a precise reproduction of d-d fusion cross sections. In this work, we construct a new set of elastic d-d interactions by fitting the phase shifts using potentials parameterized in a Woods-Saxon shape. Then, the correlation functions are calculated with the obtained potential and compared with the recent measurements by the STAR collaboration. We find that the d-d phase shifts and the correlation functions are internally consistent, confirming that correlation functions can provide cross-check for the d-d interaction. In addition, both the 1S0 bound state and the repulsive 5S2 interaction contribute to the observed suppression in the measured correlation function. Moreover, we demonstrate that the P-wave contribution of the correlation functions cannot be neglected, especially in determining the source size.
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