Researchers from New York University Abu Dhabi’s (NYUAD) Space Science Center have discovered a new set of waves in the Sun that, unexpectedly, appear to be traveling much faster than theory predicted.
In the study, High-frequency vortex waves detected in the sunPublished in the magazine natural astronomyThe researchers — led by Research Associate Chris S Hanson — detailed how they analyzed 25 years of space and terrestrial data to detect these waves. High-frequency retrograde waves (HFR) – which move in the opposite direction of the Sun’s rotation – appear as a pattern of vortices (spin motions) on the Sun’s surface and move at three times the speed determined by current theory.
The interior of the Sun and stars cannot be imaged by conventional astronomy (such as optical rays, X-rays, etc.), and scientists rely on interpreting surface signatures of a variety of waves to image the interior. These new HFRs may be an important puzzle piece in our understanding of stars.
Complex interactions between other known waves and magnetic, gravitational, or convective waves can drive HFR waves so quickly. “If the HFRs might be attributed to any of these three processes, the result would have answered some of the open questions we still have regarding the Sun,” Hanson said. “However, it does not appear that these new waves were a result of these processes, which is exciting because it leads to a whole new set of questions.”
This research was conducted at the Space Science Center at New York University Abu Dhabi in collaboration with the Tata Institute for Basic Research (TIFR) and[{”attribute=””>NewYorkUniversityusingNYUADandTIFR’scomputationalresourcesBystudyingtheSun’sinteriordynamics—throughtheuseofwaves—scientistscanbetterappreciatetheSun’spotentialimpactontheEarthandotherplanetsinoursolarsystem[{”attribute=””>NewYorkUniversityusingNYUADandTIFR’scomputationalresourcesBystudyingtheSun’sinteriordynamics—throughtheuseofwaves—scientistscanbetterappreciatetheSun’spotentialimpactontheEarthandotherplanetsinoursolarsystem
“The very existence of HFR modes and their origin is a true mystery and may allude to exciting physics at play,” said Shravan Hanasoge, a co-author of the paper. “It has the potential to shed insight on the otherwise unobservable interior of the Sun.”
Reference: “Discovery of high-frequency-retrograde vorticity waves in the Sun” 24 March 2022, Nature Astronomy.
DOI: 10.1038 / s41550-022-01632-z
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