NRL Charters Navy’s Quantum Inertial Navigation Path to Reduce Drift

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research physicist from the U.S. Naval Research Laboratory (NRL) Quantum Optics Section attaches fiber-optic cables to deliver light into the compact laser-delivery system
WASHINGTON - Jonathan Kwolek, Ph.D., a research physicist from the U.S. Naval Research Laboratory (NRL) Quantum Optics section attaches fiber-optic cables to deliver light into the compact laser-delivery system, which is carefully aligned around a custom vacuum cell in the NRL Atom Interferometry Lab, Nov. 2, 2023. The apparatus will generate a cold, continuous atomic beam which will be delivered into the larger vacuum chamber to address Navy craft inertial navigation challenges (U.S. Navy photo by Jonathan Steffen).

May 21, 2024 | Originally published by U.S. Naval Research Laboratory (NRL) on April 5, 2024

WASHINGTON – U.S. Naval Research Laboratory (NRL) researchers have developed a patent-pending continuous 3-D-cooled atom beam interferometer derived from a patented cold and continuous beam of atoms to explore atom-interferometry-based inertial measurement systems as a path to reduce drift in Naval navigation systems.

Inertial navigation is a self-contained navigation technique in which measurements provided by accelerometers and gyroscopes are used to track the position and orientation of an object relative to a known starting point, orientation, and velocity. Quantum inertial navigation is a new field of research and development that can increase inertial measurement accuracy by orders of magnitude.

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