Sub-nanometer deviations in spherical geometry and minute fluctuations in gravitational gradients lead to signal noise and experimental instability. Eliminating these errors ensures the precision required for high-fidelity ion trapping and fundamental physics measurements.

Unwanted artifacts such as foreign entities, outgassing, and vortex turbulence degrade the accuracy of liquid level and flow data. Eliminating these disturbances ensures high-fidelity sensing in volatile reactor environments.