Researchers drew on unexpected sources to help map 3,000 years of Aurora movement

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Auroral activity on Earth varies over time. As the magnetic poles drift, auroras can appear at different latitudes around the globe. Solar activity affects them too, with powerful solar storms pushing the aurorae further into mid-latitudes.

In an effort to better understand how the auroras move, how they will move in the future, and when powerful solar storms could pose a threat, a team of researchers have been tracking auroral activity over the past 3,000 years.

Two researchers associated with the National Polar Research Institute and other Japanese institutions have used ancient literature and modern data to map the changing auroral zone over the past three millennia. By finding historical accounts of cultures around the world, they created a video spanning 3,000 years of auroral drift.

They published their research in the Space Weather and Climate Log. The title of the paper is “Auroral zone over the past 3000 years” and the first author is Ryuho Kataoka, associate professor at the National Polar Research Institute.

“Accurate knowledge of the auroral zone over the past 3,000 years – thanks to old aurora witnesses around the world, including those even from the lower latitudes of Japan – helps us understand extreme magnetic storms,” first author Kataoka said in a Press release.

Science played a role alongside ancient writings in this study. Paleomagnetism is the study of magnetic evidence in rocks, and researchers have used paleomagnetic models to map the auroral zone of Earth over time.

The auroral zone is an oval shape that changes over time. Most auroras occur in a band about 20 to 30 degrees from the poles. But this area can extend further into mid-latitudes when powerful solar storms occur; even in regions like Japan.

“The auroral zone changes over time, and the deformation and sporadic expansion of the auroral oval is recorded in historical records over a thousand years across the world,” Kataoka said.

(L: Herman Fritz / Das Polarlicht; R: Kataoka and Nakano, JSWSC, 2021)

Above: on the left, a map showing the aurorals isochasm from 1700 to 1872. Right, a sketch of the auroral zone reconstructed in 1800 CE and possible deformation by an integration of 170 years for the time interval between 1700 CE and 1870 CE.

One of the historical documents that researchers have used is an Old Norse text called The king’s mirror. It has 70 chapters and is written as a dialogue between father and son. In this case, the father is Haakon IV Haakonsson and the son is Magnus Haakonsson.

The text was intended to instruct Magnus in royal affairs and to prepare him for reign. These are mainly questions of court, morality, chivalry, commerce, strategy and tactics. Corn The king’s mirror also contains descriptions of auroral activity over Greenland in 1200-1300 CE.

The research duo also viewed a Japanese text titled Nippon Kisho-Shiryo, which contains records of aurora and other phenomena. The Nippon Kisho-Shiryo has an aurora cluster around 1200 CE, which is what The king’s mirror shows.

Indeed, in the following century, paleomagnetic data shows that the auroral zone moved away from Japan and settled on Greenland. According to the first author, the historical accounts correspond to the paleomagnetic evidence.

Paleomagnetic data shows another auroral trough in the UK during the 18th century, which also matches written accounts.

One of the researchers’ goals was to find out whether aurora evidence matches paleomagnetic data. Specifically, they wanted to see if the scientific data supported the idea that the 12th century was the best time in Japan to witness the aurora. They were able to confirm it, and more.

“We concluded that the 12th and 18th centuries were excellent times for Japan and the UK, respectively, to see auroras over the past 3,000 years,” Kataoka said in a press release.

This article was originally published by Universe today. Read it original article.


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