Production and study of antideuterium with the GBAR beamline
Abstract
The potential of circulating antideuterons (d) in the AD/ELENA facility at CERN is under active investigation. Approximately 100 d per bunch could be delivered as a 100\,keV beam based on measured cross-sections. These d could be further decelerated to 12\,keV using the GBAR scheme, enabling the synthesis of antideuterium (D) via charge exchange with positronium, a technique successfully demonstrated with 6\,keV antiprotons for antihydrogen production. The AD/ELENA facility is currently studying the possibility of increasing the d rate using an optimized new target geometry. Assuming this is feasible, we propose further enhancing the anti-atom production by using laser-excited positronium in the 2P state within a cavity, which is expected to increase the D(2S) production cross-section by almost an order of magnitude for d with 2\,keV energy. We present the projected precision for measuring the antideuterium Lamb shift and extracting the antideuteron charge radius, as a function of the beam flux.
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