By Royal Astronomical Society August 2, 2024
Collected at: https://scitechdaily.com/suns-next-solar-cycle-detected-early-in-sound-waves/
The Sun’s next 11-year solar cycle has been detected in internal sound waves, even though the current Cycle 25 is at its solar maximum and won’t end until mid-2025. This peak period increases sunspots, flares, and coronal mass ejections, sending more electromagnetic energy towards Earth.
Even though the Sun is only halfway through its current 11-year solar cycle, the first rumblings of the next one have already been detected in sound waves inside our home star.
This existing cycle is now at its peak, or ‘solar maximum’ — which is when the Sun’s magnetic field flips and its poles swap places — until mid-2025.
It affects activity on the Sun’s surface, with sunspots, flares, and coronal mass ejections all more rampant at solar maximum. This leads to a surge in electromagnetic energy hurtling towards the Earth and makes aurorae visible more often and at lower altitudes.
Helioseismic and Magnetic Imager (HMI) image of the big sunspot that occurred on May 5, 2024, in continuum intensity (‘white light’). Credit: NASA/SDO and HMI science team
Cycle 25: Ongoing Observations
The current solar cycle, named Cycle 25 because it is the 25th since 1755 when extensive recording of solar sunspot activity began, started in 2019.
It is not expected to end for another six years but the first signs that the next solar cycle is beginning have been spotted by researchers from the University of Birmingham and presented at the Royal Astronomical Society’s National Astronomy Meeting in Hull.
Astronomers use the Sun’s internal sound waves to measure how it rotates, making visible a pattern of bands (solar torsional oscillation) that rotate slightly faster or slower. These move towards the Sun’s equator and its poles during the activity cycle.
The faster-rotation belts tend to show up before the next solar cycle officially begins.
Helioseismic and Magnetic Imager (HMI) image of the big sunspot that occurred on May 5, 2024, in magnetic field. Credit: NASA/SDO and HMI science team
Discovery of New Solar Cycle
Dr. Rachel Howe and her international collaborators have discovered a faint indication that the next solar cycle is starting to show up in the data they have been analyzing from the rotation bands.
“If you go back one solar cycle — 11 years — on the plot, you can see something similar that seems to join up with the shape that we saw in 2017. It went on to be a feature of the present solar cycle, Cycle 25,” said Dr. Howe, a research fellow at the University of Birmingham.
“We’re likely seeing the first traces of Cycle 26, which won’t officially start until about 2030.”
Solar torsional oscillation signals have been studied using helioseismic data from the Global Oscillation Network Group (GONG), the Michelson Doppler Imager (MDI) onboard the Solar and Heliospheric Observatory, and the Helioseismic and Magnetic Imager (HMI) on board the Solar Dynamics Observatory since 1995.
The data now covers the first four years of Solar Cycles 23, 24 and 25, allowing researchers to compare the rising phases of these cycles.
This map shows which latitudes on the Sun were rotating faster (shown in red and yellow) or slower (shown in blue and green) than average over the last 29 years, as inferred by helioseismology (the analysis of solar sound waves). For each solar cycle, there is a band of faster rotation that moves down towards the equator. The yellow lines show the areas where the magnetic fields are most concentrated. Credit: Rachel Howe
It is possible to see the whole of Solar Cycles 23 and 24, and the first half of Cycle 25. For each cycle, the band of faster rotation starts well before the magnetic activity for that cycle. On the far right of the figure, a bit of red marks what the team believes is the beginning of the fast-rotating band for Cycle 26. Credit: Rachel Howe
Excitement for Future Discoveries
Dr. Howe has been following the changes in the Sun’s rotation for about 25 years, when scientists only had a portion of data from Solar Cycle 23 from GONG and MDI.
They could see the pattern of faster-moving material drifting toward the equator along with the sunspots. Since then, they have watched the pattern repeat (but not exactly) as Cycle 24 came and went and again as Cycle 25 grew.
“It’s exciting to see the first hint that the pattern will repeat again in Cycle 26, which is due to start in about six years.
“With more data, I hope we can understand more about the part these flows play in the intricate dance of plasma and magnetic fields that form the solar cycle,” she said.
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