Nowe wskazówki pozwalające przewidzieć, kiedy i gdzie następny rozbłysk słoneczny może wybuchnąć

Rozbłysk słoneczny SDO NASA 2014

Obserwatorium Dynamiki Słońca należące do NASA uchwyciło to zdjęcie rozbłysku słonecznego w 2014 roku. Rozbłysk słoneczny to jasny błysk światła na prawej krawędzi Słońca. Bezpośrednio pod nią widać eksplozję materii słonecznej spływającej w kosmos. Źródło: NASA/SDO

Rozbłyski słoneczne mogą pomóc naukowcom przewidzieć rozbłyski słoneczne

W palących górnych warstwach atmosfery Słońca zespół naukowców znalazł nowe wskazówki, które mogą pomóc przewidzieć, kiedy i gdzie może wybuchnąć następny rozbłysk słoneczny.

Wykorzystaj dane z[{” attribute=””>NASA’s Solar Dynamics Observatory, or SDO, researchers from NorthWest Research Associates, or NWRA, identified small signals in the upper layers of the solar atmosphere, the corona, that can help identify which regions on the Sun are more likely to produce solar flares – energetic bursts of light and particles released from the Sun.

They found that above the regions about to flare, the corona produced small-scale flashes – like small sparklers before the big fireworks.

This information could eventually help improve predictions of flares and space weather storms – the disrupted conditions in space caused by the Sun’s activity. Space weather can affect Earth in many ways: producing auroras, endangering astronauts, disrupting radio communications, and even causing large electrical blackouts.

Solar Active Region (NOAA AR 2109)

Two images of a solar active region (NOAA AR 2109) taken by SDO/AIA show extreme-ultraviolet light produced by million-degree-hot coronal gas (top images) on the day before the region flared (left) and the day before it stayed quiet and did not flare (right). The changes in brightness (bottom images) at these two times show different patterns, with patches of intense variation (black & white areas) before the flare (bottom left) and mostly gray (indicating low variability) before the quiet period (bottom right). Credit: NASA/SDO/AIA/Dissauer et al. 2022

Scientists have previously studied how activity in lower layers of the Sun’s atmosphere – such as the photosphere and chromosphere – can indicate impending flare activity in active regions, which are often marked by groups of sunspots, or strong magnetic regions on the surface of the Sun that are darker and cooler compared to their surroundings. The new findings, published in The Astrophysical Journal, add to that picture.

“We can get some very different information in the corona than we get from the photosphere, or ‘surface’ of the Sun,” said KD Leka, lead author on the new study who is also a designated foreign professor at Nagoya University in Japan. “Our results may give us a new marker to distinguish which active regions are likely to flare soon and which will stay quiet over an upcoming period of time.”

SDO Artist's Concept

Artist’s concept of the Solar Dynamics Observatory (SDO). Credit: NASA/Goddard Space Flight Center Conceptual Image Lab

For their research, the scientists used a newly created image database of the Sun’s active regions captured by SDO. The publicly available resource, described in a companion paper also in The Astrophysical Journal, combines over eight years of images taken of active regions in ultraviolet and extreme-ultraviolet light. Led by Karin Dissauer and engineered by Eric L. Wagner, the NWRA team’s new database makes it easier for scientists to use data from the Atmospheric Imaging Assembly (AIA) on SDO for large statistical studies.

“It’s the first time a database like this is readily available for the scientific community, and it will be very useful for studying many topics, not just flare-ready active regions,” Dissauer said.

The NWRA team studied a large sample of active regions from the database, using statistical methods developed by team member Graham Barnes. The analysis revealed small flashes in the corona preceded each flare. These and other new insights will give researchers a better understanding of the physics taking place in these magnetically active regions, with the goal of developing new tools to predict solar flares.

“With this research, we are really starting to dig deeper,” Dissauer said. “Down the road, combining all this information from the surface up through the corona should allow forecasters to make better predictions about when and where solar flares will happen.”

References:

“Properties of Flare-imminent versus Flare-quiet Active Regions from the Chromosphere through the Corona. II. Nonparametric Discriminant Analysis Results from the NWRA Classification Infrastructure (NCI)” by K. D. Leka, Karin Dissauer, Graham Barnes and Eric L. Wagner, 16 January 2023, The Astrophysical Journal.
DOI: 10.3847/1538-4357/ac9c04

“Properties of Flare-imminent versus Flare-quiet Active Regions from the Chromosphere through the Corona. I. Introduction of the AIA Active Region Patches (AARPs)” by Karin Dissauer, K. D. Leka and Eric L. Wagner, 16 January 2023, The Astrophysical Journal.
DOI: 10.3847/1538-4357/ac9c06

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