The observed interference phase in the Rydberg atom experiment depends on uniform motion through the inhomogeneous electric field, not on acceleration.
Comment on "Matter-wave interferometry with helium atoms in low-$l$ Rydberg states''
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Tommey and Hogan [Phys. Rev. A, 104, 033305 (2021)] have reported a matter-wave interference experiment using Rydberg atoms traveling through inhomogeneous electric fields at approximately 2000 m/s. Using a simplified model containing the essential physics of their experiment, we show that the phase difference measured by their observed interference fringes does not depend -- in any significant way -- on the acceleration of the Rydberg atoms, but instead simply on the uniform motion of the atoms through the inhomogeneous electric field.
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Comment on "Matter-wave interferometry with helium atoms in low-$l$ Rydberg states''
The observed interference phase in the Rydberg atom experiment depends on uniform motion through the inhomogeneous electric field, not on acceleration.