QuikSCAT Level 1C Averaged Sigma-0 and Winds from Non-spinning Antenna Version 1.0

QuikSCAT Level 1C Averaged Sigma-0 and Winds from Non-spinning Antenna Version 1.0
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DOI10.5067/QSNON-L1CA1
Short NameQSCAT_L1C_NONSPINNING_SIGMA0_WINDS_V1
DescriptionThis dataset contains geo-located and averaged Level 1B Sigma-0 measurements and wind retrievals from the SeaWinds on QuikSCAT platform, initiated in the months following the failure of the rotating antenna motor on 22 November 2009, using the various incidence angles at which QuikSCAT was pointed during the time period from November 2009 until present. Incidence angles were varied in order to cross-calibrate the Oceansat-2 and RapidScat scatterometers and to extend the known Ku-band geophysical model function. The averaging of the L1B input data combined with the wind vector processing results are both contained in this product referred to hereafter as Level 1C (L1C). The fixed and repointed beam processing is relative to either the one corresponding to the vertically polarized "outer" beam or the other corresponding to the horizontally polarized "inner" beam. The Sigma-0 values from the fixed operating beam for each frame are averaged to a single value representing approximately 50 samples. The data points are land flagged, collocated with ECMWF surface winds, and have climatological nadir attenuations provided for the location and time of the data (not applied to the sigma0). For orbits prior to 87727 the RapidSCAT geophysical model function (GMF) has been used to compute wind speed and direction, which is provided at each discrete sampling point corresponding to the averaged Sigma-0 locations. From orbit 87727 to present, a newer GMF designed specifically to determine wind speed from QuikSCAT backscatter and ECMWF wind direction was employed. The wind speed were computed from QuikSCAT Sigma0 values by assuming the ECMWF wind direction as a first step and then refining those directions slightly to minimize differences between ECMWF and QuikSCAT wind vectors. Retrieved wind directions, thus obtained, were reported but are only slightly different from ECMWF values and should not be considered an independent measurement of wind direction. Retrieved wind speeds do not depend significantly on ECMWF speeds as evidenced by the fact that they agree closely with WindSAT polarimetric radiometer speeds whenever WindSAT and ECMWF disagree. The Sigma0 values have also been corrected for scan loss (due to the fact that the antenna does not scan) and for X-factor changes due to repointing. At a later date, the historical L1C data will be reprocessed to utilize the newer GMF.
Version1.0
Dataset TypeOPEN
MeasurementSpectral/Engineering > Radar > Sigma Naught > None
Oceans > Ocean Winds > Surface Winds > Ocean Surface Wind Vectors
Processing Level1C
CoverageRegion: Global
Northernmost Latitude: 89.875 degrees
Southernmost Latitude: -89.875 degrees
Westernmost Longitude: -180 degrees
Easternmost Longitude: 180 degrees
Time Span: 2010-Jul-16 to 2016-Oct-29
ResolutionSpatial Resolution: 25 km (Along) x 25 km (Across)
ProjectionType:
Detail:
Ellipsoid: WGS 84
Latency hours
Swath Width2 m
Sample Frequency-
Temporal Repeat (Nominal)12 Hour
Temporal Repeat (Min)1.7 Hour
Temporal Repeat (Max)4 Day
Platform/Sensor
QUIKSCAT
Platform
Name: QUIKSCAT (QUIKSCAT)
Orbit Period: 100.93 minutes
Inclination Angle: 98.6 degrees
Ascending Node: 2010-Jul-16 23:06:19
/
SEAWINDS
SENSOR
Name: SeaWinds Scatterometer (SEAWINDS)
Swath Width: 1800 km
Description: SeaWinds is a Ku-band (13.4 GHz) Scatterometer which features a single circular scanning dish antenna to provide pencil-beam measurements, as opposed to the common fan beam design as seen with other spaceborne scatterometers. The pencil-beam design has several key advantages over the more common fan beam design: higher signal-to-noise ratio, smaller size, and superior coverage. The SeaWinds single antenna utilizes twin offset feeds, thus providing two pencil-beam footprint paths with an elliptical sampling footprint of approximately 25 km (in azimuth) by 37 km (in look/range direction); these pencil beams have opposing polarizations (i.e., vertical and horizontal), thus achieving dual-polarization. The SeaWinds instrument provides a full 1800 km-wide swath coverage (including the nadir region), which allows for a nominal daily measurement coverage of 90% over the ice-free oceans.

ProjectQuick Scatterometer (QUIKSCAT)
Data ProviderCreator: JPL
Release Place: PO.DAAC
Release Date: 2016-Jul-01
Resource: -
Keyword(s)ocean, roughness, ocean roughness, radar, backscatter, normalized radar cross-section, normalized radar cross section, nrcs, sigma-0, sigma0, sigma naught, dB, L1C, level 1C, 1C, scatterometer, quikscat, qscat, seawinds, non-spinning, averaged, wind, wind speed, vector, wind vector, ocean wind, ocean winds, winds, vectors, wind vectors, surface
Persistent IDPODAAC-QSNON-L1CA1
Questions related to this dataset? Contact podaac@podaac.jpl.nasa.gov
PO.DAAC DRIVEhttps://podaac-tools.jpl.nasa.gov/drive/files/allData/quikscat/L1C/v1
Format (Compression)RAW (NONE)
Read Software
Read Softwarehttps://podaac-tools.jpl.nasa.gov/drive/files/allData/quikscat/L1C/sw
Read software provided in MATLAB and Python.
Project Materials
L1B SIS Documenthttps://podaac-tools.jpl.nasa.gov/drive/files/allData/quikscat/L1B/v2/docs/L1B_SIS_200609.pdf
Software Interface Specifications for L1B
Known Issues
QuikSCAT Known Problems and Issueshttp://podaac.jpl.nasa.gov/OceanWind/QuikSCAT/SeaWinds-QuikSCAT_KnownProblems
Web Page Consisting of Known Problems, Issues, and Data Gaps
QuikSCAT Level 1C Dataset Known Issues and Updateshttps://podaac.jpl.nasa.gov/forum/viewtopic.php?f=16&t=391
PO.DAAC Forum Topic on Known Issues and Updates to the QuikSCAT L1C Dataset. Users may post questions or comments directly to this Forum posting.
Citation JPL. 2016. QuikSCAT Level 1C Averaged Sigma-0 and Winds from Non-spinning Antenna Version 1.0. Ver. 1.0. PO.DAAC, CA, USA. Dataset accessed [YYYY-MM-DD] at https://doi.org/10.5067/QSNON-L1CA1.

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