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May 6, 2026Open Access

T –3-Shift in a Short-Baseline Atomic Interferometer–Gravimeter

Puntos clave

To investigate the lineshape-asymmetry-caused shift in a short-baseline atomic interferometer-gravimeter and its effects on gravitational acceleration measurements.
Conducted experimental observations in a short-baseline atomic interferometer-gravimeter setup
Measured the effect of evolution time on lineshape asymmetry
Compared results with previous theoretical studies
Identified a noticeable systematic error of 0.1–1 mGal in gravitational acceleration measurements
Demonstrated that the shift scales inversely with the cube of the free evolution time
Results align well with earlier theoretical predictions

Resumen

This paper presents the first experimental observation and investigation of a lineshape-asymmetry-caused shift (LACS) in a short-baseline atomic interferometer–gravimeter. It is shown that this shift scales inversely with the cube of the free evolution time, 1pt {T^{ - 3}}, and can lead to a noticeable systematic error in the measured value of the gravitational acceleration g at the level of 0. 1–1 mGal (T milliseconds). The obtained results are in good agreement with our previous theoretical studies and highlight the importance of accounting for LACS in high-precision absolute measurements of g in compact atomic gravimeters.

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