Geomagnetic storms brought the northern lights to much of the U.S. on Tuesday night, painting the sky in vibrant hues of green and pink.
The Aurora Borealis was spotted in a large swath of states, including, , , , , , , , and state. Northern lights were visible as far south as parts of and , a occurrence that highlights the severity of this week's storms.
"Well, we had activity tonight — a lot of geomagnetic storm activity," Shawn Dahl, service coordinator at the National Oceanic and Atmospheric Administration's (NOAA) Space Weather Prediction Center, said in a .
A happens when charged particles from the sun's atmosphere interact with the Earth's magnetic field. In addition to creating , such storms can on Earth, from satellites and GPS to radio communications and the power grid.
Tuesday's activity was the result of a phenomenon called (CMEs), massive blasts of plasma and magnetic field from the sun's outer atmosphere that grow in size as they hurtle towards Earth.
Two CMEs arrived on Earth on Tuesday, Dahl said.
The resulting storm , the second-highest on NOAA's five-step scale, and created a magnetic field that was "not only eight times stronger than what's normal but … also favorable for continued activity," Dahl said in a .
Forecasters are awaiting a third and final CME, which they expect will arrive on Earth at and be even stronger than the previous two.
"That was the most energetic and strongest of this activity out there in space," Dahl said. "It was traveling significantly faster than these other two, and we think that's going to pack even a stronger punch than what we've already experienced."
The the aurora may become visible "over much of the northern half of the country, and maybe as far south as Alabama to northern California."
The , the U.K.'s national weather service, says the aurora may also be visible over parts of Britain on Wednesday night, though it is likely to be obscured by cloud cover — as was the on Tuesday.
Luckily, Americans in northern states won't have to wait long for another chance to get a glimpse.
How to see (and photograph!) the northern lights
A dark setting is essential to see the aurora, so it's important to get away from light pollution if you want a good glimpse of the northern lights. It'll be easiest to see between 10 p.m. and 2 a.m. local time, according to NOAA.
It is difficult to predict the exact timing and location of the northern lights, but you can sign up for different services that alert you when an aurora may be visible in your area. For example, a citizen science platform called allows users to report when and where they see an aurora, and gives estimates on how visible an aurora is in a given area.
Another option is an app called My Aurora Forecast & Alerts, available for download on both iOS and Android devices. This is a location-based app that gives viewing probability and forecasts.
Smartphone cameras are better at capturing the full array of an aurora than our naked eye, so be sure to go out with your phone to view a fuller spectrum of colors. If your phone camera has a night mode option, it's best to switch it on when photographing the northern lights. You can also switch your phone camera to manual mode and adjust the exposure settings to get the perfect picture.
Why we are seeing more northern lights
Auroras have been happening more frequently in the United States for a while, and will continue to do so for several months. This influx of shimmering colors comes because the sun is reaching the peak of its 11-year cycle and, therefore, its solar maximum. The solar maximum causes solar eruptions, and this increase of activity brings ions, or electrically charged particles, closer to Earth. This stream of particles is known as the solar wind.
As solar winds get closer to Earth, the charged particles collide with gases in the Earth's atmosphere. When they collide, light is emitted. The light emits at various wavelengths, creating a colorful display throughout the night sky.
When the sun is at its solar maximum, the number of solar eruptions increases, which is why there are more auroras in the sky. Usually, this activity only takes place near the Arctic Circle, but since solar activity is strong right now, viewing areas have expanded to other regions, like the Midwest.
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