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Musical Sun reduces range of magnetic activity

Last Updated on Tuesday, 04 July 2017 11:55
Published on Monday, 03 July 2017 23:01

A study of the Sun using sound waves suggests that the layer in which the significant magnetic activity is located has grown thinner in recent years. Prof Yvonne Elsworth will present results at the National Astronomy Meeting at the University of Hull on Tuesday 4 July.

latest 1024 0171Image of the sun in 171 angstrom as seen by NASA's SDO on 3rd July 2017. This channel is especially good at showing coronal loops - the arcs extending off of the Sun where plasma moves along magnetic field lines. The brightest spots seen here are locations where the magnetic field near the surface is exceptionally strong. Credit: NASA / SDO. Click for a larger image

 

Prof Yvonne Elsworth, of the School of Physics and Astronomy at the University of Birmingham, explains: “The Sun is very much like a musical instrument except that its typical notes are at a very low frequency – some 100,000 times lower than middle C. Studying these sound waves, using a technique called helioseismology, enables us to find out what’s going on throughout the Sun’s interior.”

 

The Sun acts as a natural cavity to trap sound, which is generated by turbulence in the outermost few-hundred-kilometres of the convection zone. The University of Birmingham is one of the pioneers in the field of helioseismology and researchers have been using the Birmingham Solar Oscillations Network (BiSON) to study the Sun through sound waves since 1985. This period covers three of the Sun’s 11-year activity cycles, which see fluctuations in the rate at which energetic particles are created by the interaction between the Sun’s magnetic field and its hot, highly charged outer layers.

 

The Sun is currently heading towards a period of minimum activity and an international team has used the full BiSON dataset to try to look for clues in previous cycles as to what might be causing some unusual solar activity observed lately.

 

“Recent activity maxima have actually been rather quiet and the last cycle had a long, extended minimum,” notes Elsworth. “It will be interesting to see if the minimum of this current cycle is extended in the manner of the previous one or if it will soon be back to the conditions of the past. However, if it is a normal minimum it will also be interesting to ask why the previous one was unusual.”

  

In work just published in the Monthly Notices of the Royal Astronomical Society, the team shows that the interior of the Sun has changed in recent years, and that these changes persist in the current cycle. In combination with theoretical models, the observations suggest that the magnetic field distribution in the outer layers may have become a bit thinner. Other seismic data shows that the rotation rate of the Sun has also undergone some changes in the way the Sun rotates at different latitudes.

 

“Again, this is not how it used to be and the rotation rate has slowed a bit at latitudes around about 60 degrees. We are not quite sure what the consequences of this will be but it’s clear that we are in unusual times. However, we are beginning to detect some features belonging to the next cycle and we can suggest that the next minimum will be in about two years,” says Elsworth.

 


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Science contacts

 

Yvonne Elsworth

School of Physics and Astronomy

University of Birmingham

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Images and captions

 

Image of the sun in 171 angstrom as seen by NASA's SDO on 3rd July 2017. This channel is especially good at showing coronal loops - the arcs extending off of the Sun where plasma moves along magnetic field lines. The brightest spots seen here are locations where the magnetic field near the surface is exceptionally strong. Credit: NASA / SDO

 

The Birmingham Solar-Oscillations Network (BiSON) station at Las Campanas, Chile. It is equatorially mounted and housed in a small dome. This site consistently produces the best BiSON data. Credit: S.J. Hale / University of Birmingham / BiSON

 

Daily images and videos of the Sun can be found here:

https://www.nasa.gov/mission_pages/sdo/the-sun-now/index.html

 

 


Further information

 

The new work appears in “The Sun in transition? Persistence of near-surface structural changes through Cycle 24”, R. Howe, G.R. Davies, W.J. Chaplin, Y. Elsworth, S. Basu, S.J. Hale, W.H. Ball, R. W. Komm, Monthly Notices of the Royal Astronomical Society, Oxford University Press, 29 May 2017 stx1318. doi: 10.1093/mnras/stx1318

 


Notes for editors

 

Running from 2 to 6 July, the RAS National Astronomy Meeting 2017 (NAM 2017, http://nam2017.org) takes place this year at the University of Hull. NAM 2017 will bring together around 500 space scientists and astronomers to discuss the latest research in their respective fields. The conference is principally sponsored by the Royal Astronomical Society and the Science and Technology Facilities Council.

T: http://twitter.com/rasnam2017

 

The Royal Astronomical Society (RAS, www.ras.org.uk), founded in 1820, encourages and promotes the study of astronomy, solar-system science, geophysics and closely related branches of science. The RAS organises scientific meetings, publishes international research and review journals, recognizes outstanding achievements by the award of medals and prizes, maintains an extensive library, supports education through grants and outreach activities and represents UK astronomy nationally and internationally. Its more than 4000 members (Fellows), a third based overseas, include scientific researchers in universities, observatories and laboratories as well as historians of astronomy and others.

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The Science and Technology Facilities Council (STFC, www.stfc.ac.uk) is keeping the UK at the forefront of international science and has a broad science portfolio and works with the academic and industrial communities to share its expertise in materials science, space and ground-based astronomy technologies, laser science, microelectronics, wafer scale manufacturing, particle and nuclear physics, alternative energy production, radio communications and radar.

STFC's Astronomy and Space Science programme provides support for a wide range of facilities, research groups and individuals in order to investigate some of the highest priority questions in astrophysics, cosmology and solar system science. STFC's astronomy and space science programme is delivered through grant funding for research activities, and also through support of technical activities at STFC's UK Astronomy Technology Centre and RAL Space at the Rutherford Appleton Laboratory. STFC also supports UK astronomy through the international European Southern Observatory.

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