Paper
21 December 1994 Statistical and radiometric measurements of coherently illuminated, nonaugmented, low-earth-orbit satellites
Douglas B. Rider, David G. Voelz, David Stone, Kathy J. Schulze, David R. Dean, Keith A. Bush
Author Affiliations +
Abstract
The US Air Force Phillips Laboratory recently completed the Floodbeam Experiment (FBE), recording the first ever spatially resolved, coherent laser returns from non-augmented (non- retroreflectors), low earth orbit satellites. The experiment broadcast a near-IR, coherent laser at a selected set of low earth orbit satellites using a beam director and visible tracking system located at the Phillips Lab Starfire Optical Range (SOR). Tracking was accomplished during terminator periods when the satellite was illuminated by the sun and the transmitting/receiving site was in darkness. Thirty eight different satel- lites were illuminated during the experiment. The reflected laser return was collected with the 1.5m telescope at the SOR and focused on a low noise IR camera. The Floodbeam experiment gathered radiometric data, data on depolarization effects, and spatially resolved coherent speckle patterns. This paper will discuss the experimental hardware and the field results.
© (1994) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Douglas B. Rider, David G. Voelz, David Stone, Kathy J. Schulze, David R. Dean, and Keith A. Bush "Statistical and radiometric measurements of coherently illuminated, nonaugmented, low-earth-orbit satellites", Proc. SPIE 2312, Optics in Atmospheric Propagation and Random Phenomena, (21 December 1994); https://doi.org/10.1117/12.197375
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KEYWORDS
Satellites

Stars

Speckle pattern

Cameras

Pulsed laser operation

Polarization

Speckle

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