David M. Le Vine scite author profile

Experiments performed at the Kennedy Spacc Center, Florida during TRIP-78 have identified sources of the strongest RF radiation from lightning in the HF-VHF frequency range. Measurements were made of electric field changes associated RF radiation using a field change system triggered on the output of an RF detector. The field changes associated with the strongest RF radiation are very fast (10 -20 µs), bipolar pulses having an initial negative going half-cycle followed by a positive overshoot. These fast pulses consistently produced more RF radiation than was associated with return strokes, and their shape was remarkably consistent, independent of frequency.iii Page ABSTRACT

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Interferometric synthetic aperture microwave radiometry for the remote sensing of the Earth

Ruf

Swift

Tanner

et al. 1988

IEEE Trans. Geosci. Remote Sensing

485

211

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The Salinity Retrieval Algorithms for the NASA Aquarius Version 5 and SMAP Version 3 Releases

2018

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Abstract:The Aquarius end-of-mission (Version 5) salinity data set was released in December 2017. This article gives a comprehensive overview of the main steps of the Level 2 salinity retrieval algorithm. In particular, we will discuss the corrections for wind induced surface roughness, atmospheric oxygen absorption, reflected galactic radiation and side-lobe intrusion from land surfaces. Most of these corrections have undergone major updates from previous versions, which has helped mitigating temporal and zonal biases. Our article also discusses the ocean target calibration for Aquarius Version 5. We show how formal error estimates for the Aquarius retrievals can be obtained by perturbing the input to the algorithm. The performance of the Aquarius Version 5 salinity retrievals is evaluated against salinity measurements from the ARGO network and the HYCOM model. When stratified as function of sea surface temperature or sea surface wind speed, the difference between Aquarius Version 5 and ARGO is within ±0.1 psu. The estimated global RMS uncertainty for monthly 100 km averages is 0.128 psu for the Aquarius Version 5 retrievals. Finally, we show how the Aquarius Version 5 salinity retrieval algorithm is adapted to retrieve salinity from the Soil-Moisture Active Passion (SMAP) mission.

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Aquarius: An Instrument to Monitor Sea Surface Salinity From Space

Vine

Lagerloef

Colomb

et al. 2007

IEEE Trans. Geosci. Remote Sensing

303

183

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David M. Le Vine

Soil moisture mapping at regional scales using microwave radiometry: the Southern Great Plains Hydrology Experiment

Sources of the strongest RF radiation from lightning

Interferometric synthetic aperture microwave radiometry for the remote sensing of the Earth

The Salinity Retrieval Algorithms for the NASA Aquarius Version 5 and SMAP Version 3 Releases

Aquarius: An Instrument to Monitor Sea Surface Salinity From Space

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