Journal
SENSORS
Volume 23, Issue 21, Pages -Publisher
MDPI
DOI: 10.3390/s23218949
Keywords
long ranging; optical cross-correlation; femtosecond lasers
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In this study, a long-distance ranging apparatus was configured to test the principle of dual-comb time-of-flight measurement using ultrashort lasers. The focus was on evaluating the performance in open-air conditions, quantitatively measuring the resolution and stability. The results showed that the dual-comb asynchronous optical pulse sampling technique allowed micrometer-resolved ranging with a repeatability of 2.05 μm over a distance of 648 m in dry weather. The study also evaluated atmospheric effects in different weather conditions and verified the capability of simultaneous determination of multiple targets.
We configured a long-distance ranging apparatus to test the principle of dual-comb time-of-flight measurement using ultrashort lasers. Emphasis was given to the evaluation of open-air performance quantitatively in terms of the measurement resolution and stability. The test results revealed that our dual-comb asynchronous optical pulse sampling permits micrometer-resolved ranging with a repeatability of 2.05 mu m over a 648 m distance in dry weather conditions. Further atmospheric effects were evaluated in three different weather conditions with corresponding Allan deviations. Finally, the capability of simultaneous determination of multiple targets was verified with the potential of advanced industrial applications, such as manufacturing, surveying, metrology, and geodesy.
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