![]() Observational data from 2015-2020 found that the SAA has recently started to split from a single valley, or region of minimum field strength, into two cells and models out to the year 2025 show the split continuing in the future, creating additional challenges for satellite missions. However, recent observations and forecasts show that the region is expanding westward and continuing to weaken in intensity. ![]() The SAA creates no visible impacts on daily life on the surface, and its weakening magnetic intensity is still within the bounds of what scientists consider normal variation. Particle radiation in the SAA can knock out onboard computers and interfere with the data collection of satellites that pass through it. But over South America and the southern Atlantic ocean, an unusually weak spot in the field, called the South Atlantic Anomaly (SAA), allows these particles to dip much closer to the surface. The magnetic field extends past the surface into space and acts like a protective shield around the planet, repelling and trapping charged particles from the Sun. The bulk of Earth’s magnetic field originates deep within its core, at the boundary between the molten outer core and the solid mantle. This video is also available on our YouTube channel. There are versions that include the dates and colorbars and versions without the date and colorbat. South Atlantic Anomaly from 2015 through 2025 showing the geomagnetic intensity at the Earth's surface and the core-mantle boundary. The imagery directly underneath the SEU is uncorrectable in the band in which it appears.Saa_intensity_dataOnly_1080_p30.mp4 (1920x1080) They do not pose a threat to the health of any properly designed instrument. Generally, SEUs are not a cause for concern. ![]() Unlike Fire Noise, each SEU event only occurs in a single band. SEUs have a multi-detector shape, whereas Impulse Noise usually affects only a single pixel. ![]() SEUs appear similar to and can be mistaken for Impulse Noise or Fire Noise. Band 1 was excluded because of low saturation caused by Detector Ringing events. Bands 5 and 7 were excluded from this map because of the frequent occurrence of Oversaturation in those bands over small fires around the world. SEUs have been discovered in all bands except Band 6, but mining the IAS trending database for SEUs is complicated by the presence of other low saturating artifacts, especially in Bands 1, 5, and 7. Global occurrence of Single Event Upsets found in the USGS Landsat Image Assessment System (IAS) trending database.
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