
Think you have to trudge to Sweden or Alaska to see the Northern Lights? Think again.
Typically only seen near the pole, the Northern Lights have been lighting up the skies over much of central Europe and the contiguous US this year.
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Now citizen science project is making it easier to know when to run outside to take in the spectacular sky show by combining Twitter data, peer verification tools and a real-time alert system.
It started off by looking at auroras in the northern hemisphere, but has recently expanded to map those in the southern one, too.
This year has been a stormy one for the sun, which is at the peak phase of its activity cycle. As a result, its belches of geomagnetic radiation have been particularly zealous, leaving Earth in the firing line. That solar wind interacts with Earth鈥檚 atmosphere to create colourful light displays near both poles, called auroras.
Predicting precisely where the aurora will appear is tricky. 快猫短视频s use , which draws on solar wind intensity data collected by a NASA satellite to create a map of where the phenomenon might be visible.
Magnetic models
But measuring the accuracy of these predictions and tweaking the model accordingly isn鈥檛 easy.
鈥淓ven knowing if a solar storm that collides with Earth will cause havoc or be deflected safely by our magnetic field is uncertain as we can鈥檛 easily measure the magnetic field of the storm,鈥 says , an astrophysicist at Australia鈥檚 Swinburne University of Technology.
That鈥檚 where Aurorasaurus steps in. First launched at the end of 2014, the web and mobile app combines citizen scientist reports of aurora sightings with geo-tagged tweets mentioning the phenomenon and plots them onto a map, along with NOAA鈥檚 predicted view-line 鈥 which indicates how far towards the equator an aurora may be visible.
鈥淲e saw a lot of people reporting seeing the aurora farther away from where the OVATION model predicted,鈥 says , a science writer at who worked on Aurorasaurus alongside a team of space scientists, computer scientists and volunteers.
As a result, the Aurorasaurus algorithm has been updated so that the view-line incorporates not only the NOAA model鈥檚 prediction but also the citizen scientists鈥 observations. The view-line is updated as more sightings are added, and email notifications are sent out to anyone with a chance of catching a glimpse.
Real-time auroras
鈥淭his is the first time the citizen science observations are being used in a concerted effort to help track the aurora in real-time,鈥 Patel says.
The team has added tools that allow anyone to verify a reported sighting that has been plotted on the map. The more people who say they have seen the aurora in a particular location, the more 鈥渢ruth鈥 is added to that sighting. 鈥淲e鈥檝e been able to get two times truer aurora sightings than if it went unverified,鈥 Patel explains.
This year has been a particularly rich one for solar storm data. 鈥淲e鈥檙e getting hundreds of data points 鈥 the more we get, the more accurate we can make the predictions,鈥 says Patel.
Beyond alerting photographers and space enthusiasts about the spectacle, the data can be fed back to researchers to try and better understand the underlying interactions between Earth鈥檚 magnetic field and the charged particles emitted by the sun.
鈥淭he auroras are signatures of high-energy particles precipitating into the polar regions of Earth鈥檚 magnetic field,鈥 says at Standford University in California. 鈥淪o it isn鈥檛 that we鈥檇 like to predict only the aurora itself, but the entire process that causes the aurora.鈥
Read more: 鈥Good to glow: Auroras hide array of planetary secrets鈥;
鈥Solar superflares: A new danger from the sun鈥
Image credit: Norseman1968/getty