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Surprising Geomagnetic Sudden Pulse Strikes Earth; Geomagnetic Storm Watch in Effect – G2/MODERATE

by Weatherboy Team Meteorologist - November 3, 2021

Analysis by NOAA and space weather models they use suggest it is likely there are a few Earth-directed CMEs from the latest solar unrest. Image: NOAA SWPC
Analysis by NOAA and space weather models they use suggest it is likely there are a few Earth-directed CMEs from the latest solar unrest. Image: NOAA SWPC



A surprising geomagnetic sudden pulse struck Earth today and forecasters with NOAA’s Space Weather Prediction Center (SWPC) is warning a moderate geomagnetic storm event could unfold over the next 24 to 36 hours. With the threat of a geomagnetic storm looming, the SWPC issued a G2-Moderate Geomagnetic Storm Watch in effect for the rest of November 3 and a G1-Minor Geomagnetic Storm Watch is in effect into November 4.

It appears several coronal mass ejections (CME) erupted from the Sun yesterday and the day before, with model guidance suggesting Earth-directed components to a few of them. In a bulletin issued this afternoon, the SWPC wrote, “CMEs took place from the southwest area of the Sun to include one associated with a C4 flare from NOAA/SWPC Region 2887 at 01/2133 UTC (02/1:33am EDT). This was followed by a full halo CME related to an M1 flare (R1-Minor Radio Blackout) from Region 2891 at 02/0301 UTC (02/7:01am EDT) near center disk. Confidence in a measure of Earth-directed components to these CMEs is moderate; while there is less confidence in timing and intensity.”




This latest solar event is unfolding just days after a similar blast impacted Earth over Halloween weekend. It is possible this event may trigger an even brighter, more south aurora show across the Northern Hemisphere. While there are fears that a future blast from the sun will disrupt electricity, communication, and internet lines for weeks, this event does not seem to have that type of potential with it.

 

Chart showing NOAA Space Weather Scales for Geomagnetic Storms. Image: NOAA
Chart showing NOAA Space Weather Scales for Geomagnetic Storms. Image: NOAA

 

The Sun is the primary cause of “space weather.”  At times, the Sun can be thought of as going through a “stormy” period where its surface is more active than normal. When this happens, the Sun can send streams of energized particles out in all directions. When these energized particles interact with the outer reaches of our atmosphere, the aurora borealis (the Northern Lights) and the aurora australis (the Southern Lights) can result.

 

 

 




Region 2864, circled here on the sun, could set the stage for more aurora displays on Earth and perhaps a full-fledged geomagnetic storm. Image: ROyal Observatory of Belgium / Solar Terrestrial Center of Excellence / Solar Influences Data and Analysis Centre
Region 2864, circled here on the sun, could set the stage for more aurora displays on Earth and perhaps a full-fledged geomagnetic storm. Image: ROyal Observatory of Belgium / Solar Terrestrial Center of Excellence / Solar Influences Data and Analysis Centre

Dark regions on the Sun known as coronal holes are one of the main drivers of space weather now. According to the Space Weather Prediction Center, coronal holes appear as dark regions on the Sun because they are cooler than the surrounding plasma and are open magnetic field lines. The Sun’s outermost part of its atmosphere, which is known as the corona, is where these dark regions appear. The solar corona was also one of the main features of the Sun scientists were most excited to study during the past solar eclipse. You are able to notice these features in extreme ultraviolet (EUV) and soft x-ray solar images.

Solar wind is always flowing from the Sun and towards Earth but coronal holes are known for releasing enhanced solar wind. Coronal holes can develop anywhere on the sun and are more common during solar minimum. One solar rotation of the Sun occurs every 27 days and coronal holes are sometimes able to last several of these. It is common to see persistent coronal holes at the north and south pole of the Sun but sometimes they can expand towards the equator of the Sun resulting in a larger region. Normally, coronal holes located near the Sun’s equator, result in faster solar wind arriving at Earth. It is common to see coronal holes produce G1-G2 geomagnetic storming levels and sometimes on rare occasions, upwards to G3 levels have been met.

The dark regions in this SDO Image is what a coronal hole looks like. Image: NASA/SDO
This is an example of the data forecasters will look at to determine when the coronal hole effects are arriving. Image: NASA/Aurorasaurus

Geomagnetic storms are rated on a 1-5 scale, with 1 being the weakest and 5 having the most potential for damage. Even a  G1 geomagnetic storm could create issues:  there could be weak power grid fluctuations and minor impacts on satellite operations. Aurora, also known as the “Northern Lights”, could be visible at high latitudes from northern Michigan and Maine to points north. Impacts and aurora change as the geomagnetic storm scale increase.

NOAA forecasters analyze these features and have to take them into account during each forecast. If Earth is experiencing the effects of a coronal hole and a coronal mass ejection is forecasted to impact Earth, the combined effects could result in a more significant impact and more intense geomagnetic storming. Analyzing data from the DSCOVER and ACE satellite is one way forecasters can tell when the enhanced solar wind from a coronal hole is about to arrive at Earth. A few things they look for in the data to determine when the enhanced solar wind is arriving at Earth:
• Solar wind speed increases
• Temperature increases
• Particle density decreases
• Interplanetary magnetic field (IMF) strength increases

While these solar events can help illuminate the sky with stunning aurora, they can also do considerable harm to electronics, electrical grids, and satellite and radio communications. That isn’t expected this week, but such an event could happen in the future.

On September 1-2 in 1859, a powerful geomagnetic storm struck Earth during Solar Cycle 10. A CME hit the Earth and induced the largest geomagnetic storm on record.  The storm was so intense it created extremely bright, vivid aurora throughout the planet: people in California thought the sun rose early, people in the northeastern U.S. could read a newspaper at night from the aurora’s bright light, and people as far south as Hawaii and south-central Mexico could see the aurora in the sky.




The event severely damaged the limited electrical and communication lines that existed at that time; telegraph systems around the world failed, with some telegraph operators reporting they received electric shocks.

Artist rendering of the Parker Solar Probe in space. Image: NASA
Artist rendering of the Parker Solar Probe in space, one of the assets scientists use to better understand solar activity and their impacts to Earth . Image: NASA

A June 2013 study by Lloyd’s of London and Atmospheric and Environmental Research (AER) in the U.S. showed that if the Carrington event happened in modern times, damages in the U.S. could exceed $2.6 trillion, roughly 15% of the nation’s annual GDP.

While typically known for their weather forecasts, the National Oceanic and Atmospheric Administration (NOAA) and its National Weather Service (NWS) is also responsible for “space weather.” While there are private companies and other agencies that monitor and forecast space weather, the official source for  alerts and warnings of the space environment is the Space Weather Prediction Center (SWPC). The SWPC is located in Boulder, Colorado and is a service center of the NWS, which is part of NOAA. The Space Weather Prediction Center is also one of nine National Centers for Environmental Prediction (NCEP) as they monitor current space weather activity 24/7, 365 days a year.

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