Don Jacob scite author profile

Don Jacob

4Publications

49Citation Statements Received

23Citation Statements Given

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Affiliations

Coherent (United States), Lockheed Martin (United States), Lockheed Martin (Canada)

Publications

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Review of Idealized Aircraft Wake Vortex Models

Ahmad

Proctor

Duparcmeur

et al. 2014

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Properties of three aircraft wake vortex models, Lamb-Oseen, Burnham-Hallock, and Proctor are reviewed. These idealized models are often used to initialize the aircraft wake vortex pair in large eddy simulations and in wake encounter hazard models, as well as to define matched filters for processing lidar observations of aircraft wake vortices. Basic parameters for each vortex model, such as peak tangential velocity and circulation strength as a function of vortex core radius size, are examined. The models are also compared using different vortex characterizations, such as the vorticity magnitude. Results of Euler and large eddy simulations are presented. The application of vortex models in the postprocessing of lidar observations is discussed.

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Comparative analysis of low-Earth orbit (TROPOMI) and geostationary (GeoCARB, GEO-CAPE) satellite instruments for constraining methane emissions on fine regional scales: application to the Southeast US

Sheng¹,

Jacob²,

Maasakkers³

et al. 2018

Preprint

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Abstract. We conduct observing system simulation experiments (OSSEs) to compare the ability of future satellite measurements of atmospheric methane columns (TROPOMI, GeoCARB, GEO-CAPE) for constraining methane emissions down to the 25 km scale through inverse analyses. The OSSE uses the GEOS-Chem chemical transport model 0.25˚ × 0.3125˚ grid resolution) in a 1-week simulation for the Southeast US with 216 emission elements to be optimized through inversion of synthetic satellite observations. Clouds contaminate 73–91 % of the viewing scenes depending on pixel size. Comparison of GEOS-Chem to TCCON surface-based methane column observations indicates a model transport error standard deviation of 12 ppb, larger than the instrument errors when aggregated on the 25 km model grid scale, and with a temporal error correlation of 6 hours. We find that TROPOMI (7 × 7 km2 pixels, daily return time) can provide a coarse regional optimization of methane emissions, and is highly sensitive to cloud cover. The geostationary instruments can do much better and are less sensitive to cloud cover, reflecting both their finer pixel resolution and more frequent observations. The information content from GeoCARB toward constraining methane emissions increases by 20–25 % for each doubling of the GeoCARB measurement frequency. Temporal error correlation in the transport model moderates but does not cancel the benefit of more frequent measurements for geostationary instruments. We find that GeoCARB observing twice a day would provide 70 % of the information from the nominal GEO-CAPE mission considered by NASA in response to the Decadal Survey of the US National Research Council.

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Summary of NASA Wake and Weather Data Collection at Memphis International Airport: 2013-2015 (Invited)

Pruis

Delisi

Jacob

et al. 2016

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Performance bounds of the phase gradient autofocus algorithm for synthetic aperture ladar

Gatt

Jacob

Bradford

et al. 2009

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Don Jacob

Review of Idealized Aircraft Wake Vortex Models

Comparative analysis of low-Earth orbit (TROPOMI) and geostationary (GeoCARB, GEO-CAPE) satellite instruments for constraining methane emissions on fine regional scales: application to the Southeast US

Summary of NASA Wake and Weather Data Collection at Memphis International Airport: 2013-2015 (Invited)

Performance bounds of the phase gradient autofocus algorithm for synthetic aperture ladar

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