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A young star's age can be gleaned from nothing but sound waves

Mon, 07/07/2014 - 9:42am

A composite image detailing the pre-life story of a star like the Sun, spanning about 10 million years from conception to birth. Image: Pieter Degroote (KU Leuven) / background image: ESODetermining the age of stars has long been a challenge for astronomers. In experiments published in the journal Science, researchers at KU Leuven's Institute for Astronomy show that 'baby' stars can be distinguished from 'adolescent' stars by measuring the acoustic waves they emit.

Stars are often born in clusters, the result of contracting molecular clouds of gas and dust particles. As a star evolves from infant to adolescent, gravitational pull causes it to contract. It gets smaller in size and hotter until the core temperature is sufficient to start thermonuclear fusion. At this point, the star stabilizes and becomes an “adult”. It stays this way for vast tracts of time.

Determining the age of a young star is far from simple, and knowing which molecular cloud a star comes from gives only a vague idea of its age. But researchers have come up with a way to determine the age of stars by measuring their acoustic vibrations using ultrasound technology similar to that used in the field of medicine.

Ultrasound

“Think of it as ultrasound of stellar embryos,” explains Professor Jaymie Matthews, a co-author of the study from the University of British Colombia. “Stars can vibrate due to sound waves bouncing inside. We detect the sound vibrations across the vacuum of space by the subtle changes in stellar brightness. Then we translate the frequencies of those vibrations into models of the structures of those stars’ hidden interiors.”

First author Dr. Konstanze Zwintz, a postdoctoral researcher at KU Leuven's Institute for Astronomy, and her colleagues studied the vibrations of 34 stars aged under 10 million years and sized between one and four times the mass of our sun.

"Our data shows that the youngest stars vibrate slower while the stars nearer to adulthood vibrate faster. A star's mass has a major impact on its development: stars with a smaller mass evolve slower. Heavy stars grow faster and age more quickly," says Zwintz.

While theoretical physicists have posited before that young stars vibrate differently than older stars, Zwintz' study is the first to confirm these predications using concrete data from outer space.

"We now have a model that more precisely measures the age of young stars," says Zwintz. "And we are now also able to subdivide young stars according to their various life phases."

The researchers studied the nebula known commonly as the Christmas Tree Cluster. Their data was obtained from the Canadian MOST satellite and the European CoRoT satellite as well as from ground-based facilities such as the European Southern Observatory (ESO) in Chile.

Echography of young stars reveals their evolution

Source: KU Leuven

 

 

 

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