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Anthony L. Cook
Researcher at Langley Research Center
Publications - 29
Citations - 738
Anthony L. Cook is an academic researcher from Langley Research Center. The author has contributed to research in topics: Lidar & Laser. The author has an hindex of 8, co-authored 29 publications receiving 645 citations.
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Journal ArticleDOI
Airborne High Spectral Resolution Lidar for profiling aerosol optical properties
Johnathan W. Hair,Chris A. Hostetler,Anthony L. Cook,David B. Harper,Richard Ferrare,Terry L. Mack,Wayne Welch,Luis Ramos Izquierdo,Floyd Hovis +8 more
TL;DR: The design of the airborne HSRL, the internal calibration and accuracy of the instrument, data products produced, and observations and calibration data from the first two field missions are discussed.
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Assessment of the CALIPSO Lidar 532 nm attenuated backscatter calibration using the NASA LaRC airborne High Spectral Resolution Lidar
Raymond R. Rogers,Chris A. Hostetler,Johnathan W. Hair,Richard Ferrare,Zhaoyan Liu,Michael D. Obland,David B. Harper,Anthony L. Cook,Kathleen A. Powell,Mark A. Vaughan,David M. Winker +10 more
TL;DR: In this paper, the authors present a quantitative assessment of the CALIOP 532 nm calibration (through the 532nm total attenuated backscatter) using internally calibrated airborne HSRL underflight data and is the most extensive study of the calibration.
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System analysis of a tilted field-widened Michelson interferometer for high spectral resolution lidar
TL;DR: The transmission ratios over different types of system imperfections, such as cumulative wavefront error, locking error, reflectance of the beam splitter and anti-reflection coatings, system tilt, and depolarization angle are analyzed.
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Diode-laser-pumped tunable 896–939.5-nm neodymium-doped fiber laser with 43-mW output power
TL;DR: A diode-laser-pumped neodymium-doped fiber laser operating on the 4F(3/2)-4I(9/2) transition, which covers the 900-950-nm region is presented.
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Optical reflectivity of micromachined {111}-oriented silicon mirrors for optical input - output couplers
TL;DR: In this paper, the authors describe the silicon mirror processing conditions, measured reflectivities, reflected beam profiles, and a prototype integrated optical I-O coupler with the realized mirrors, enabling them to envisage a synchronized optical clock distribution system as well as a distributed remote optical sensing system with low manufacturing cost.