2022
DOI: 10.1109/jlt.2022.3201189
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A Low-Drift Laser-Driven FOG Suitable for Trans-Pacific Inertial Navigation

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Cited by 3 publications
(6 citation statements)
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“…[5] These metrics were shown experimentally to meet the FAA requirements for inertial navigation of an aircraft, with a positional error under 10 nautical miles after a 10-h flight. [6] In spite of this success, in earlier measurements the drift of this FOG was larger by a factor of ~3 than that measured in the same FOG probed with an SFS instead of a broadened laser. Experiments show that this drift is limited by one or more of the aforementioned nonreciprocal effects.…”
Section: Introductionmentioning
confidence: 76%
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“…[5] These metrics were shown experimentally to meet the FAA requirements for inertial navigation of an aircraft, with a positional error under 10 nautical miles after a 10-h flight. [6] In spite of this success, in earlier measurements the drift of this FOG was larger by a factor of ~3 than that measured in the same FOG probed with an SFS instead of a broadened laser. Experiments show that this drift is limited by one or more of the aforementioned nonreciprocal effects.…”
Section: Introductionmentioning
confidence: 76%
“…The ~1558-nm semiconductor lasers were selected to have similar center wavelengths, which could be tuned over a small range by adjusting their temperature. The laser outputs were combined in a 4x4 fiber coupler and sent into an EOM driven by the Gaussian noise source described in [6]. The broadened laser signal exiting the EOM was sent into an optical gate to (1) eliminate the optical spikes in the FOG output that result from the use of square-wave modulation to bias the FOG's interferometer [2], and (2) suppress the Kerr effect [1].…”
Section: Experimental Fogmentioning
confidence: 99%
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