The Sun at 4.5 Billion Years Old is Approaching a Critical Epoch

 

 

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At a critical point in the life of a star like the Sun its rotation stops 'slowing down', according to research published in the journal Nature by University of Birmingham scientists today (Jan. 4, 2016). This discovery challenges existing theories and has implications for our understanding of how the Sun and other stars influence their local environments, including planets, as they age.


The rotation of the Sun is slowing as its magnetic field interacts with a wind of particles flowing away from its surface. Other Sun-like stars show similar behaviour. This study used a method, called gyrochronology for estimating the ages of stars from their rotation rates. According to previous research, it was thought that the rotation rates of older stars continued to slow down, well into their later years. However astrophysicists at Birmingham have discovered that, at a certain age, stars stop slowing down and no longer obey the gyrochronology relations. 'The astrophysics community thought that stellar rotation carried on slowing down throughout the lives of older stars, but we have discovered that this slowing ceases when stars reach their middle age.'

A full-disk multiwavelength extreme ultraviolet image of the sun above taken by SDO on March 30, 2010. False colors trace different gas temperatures. Reds are relatively cool (about 60,000 Kelvin, or 107,540 F); blues and greens are hotter (greater than 1 million Kelvin, or 1,799,540 F). NASA/Goddard/SDO AIA Team

'The Sun is 4.5 billion years old and we know it is approaching this critical epoch and so we think it will stop slowing down in the next few hundreds of millions of years,' said Guy Davies, co-author on the study from the University of Birmingham's School of Physics and Astronomy.

This future change in behavior is likely to influence the way the Sun interacts with the Earth. If the magnetic field changes then the star lifts its foot off of the brake and stops slowing down. These changes in magnetic field could lead to reduced high-energy particle emission and less frequent solar storms. This reduces the risks posed to a technologically advanced society posed by such space weather events. This could also significantly reduce the risks posed to human space travel.

'This research has major implications for how we see the Sun in the wider context of other Sun-like stars in our Galaxy, some of which will harbour planets like our own," added Bill Chaplin, head of solar and stellar research at Birmingham.

The Daily Galaxy via University of Birmingham

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