Atom interferometer phase in the presence of proof mass
B. Dubetsky
TL;DR
This paper justifies and refines the expression for atom interferometer phase in the presence of proof mass, including quantum corrections, enabling highly accurate phase calculations for precision measurements.
Contribution
It provides a rigorous justification of the interferometer phase expression and derives quantum corrections for improved numerical accuracy.
Findings
Quantum corrections enable phase calculations with 1ppm accuracy
Justification of the phase expression used in prior work
Enhanced numerical methods for atom interferometry
Abstract
This is presented the justification of the expression for the atom interferometer phase in the presence of proof mass used in arXiv:1407.7287. Quantum corrections to that expression are also derived. The corrections allow one to calculate numerically atom interferometer phase with accuracy 1ppm or better.
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Taxonomy
TopicsCold Atom Physics and Bose-Einstein Condensates · Radioactive Decay and Measurement Techniques · Scientific Measurement and Uncertainty Evaluation