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Paper detail

Why three-body physics do not solve the proton radius puzzle

The possible involvement of weakly bound three-body systems in the muonic hydrogen spectroscopy experiment [1], which could resolve the current discrepancy between determinations of the proton radius, is investigated. Using variational calculations with complex coordinate rotation, it is shown that the $pμe$ ion, which was recently proposed as a possible candidate [2], has no resonant states in the energy region of interest. QED level shifts are included phenomenologically by including a Yukawa potential in the three-body Coulomb Hamiltonian before diagonalization. It is also shown that the $ppμ$ molecular ion cannot play any role in the observed line.

preprint2012arXivOpen access
Jean-Philippe KarrLaurent Hilico
physics.atom-ph
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Jean-Philippe KarrLaurent Hilico

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