Alma’s image of red giant star gives a surprising glimpse of the Sun’s future
(7 November 2017 - Chalmers University of Technology) A Chalmers-led team of astronomers has for the first time observed details on the surface of an aging star with the same mass as the Sun.
ALMA:s images show that the star is a giant, its diameter twice the size of Earth’s orbit around the Sun, but also that the star’s atmosphere is affected by powerful, unexpected shock waves. The research is published in Nature Astronomy on 30 October 2017.
A team of astronomers led by Wouter Vlemmings, Chalmers University of Technology, have used the telescope Alma (Atacama Large Millimetre/Submillimetre Array) to make the sharpest observations yet of a star with the same starting mass as the Sun. The new images show for the first time details on the surface of the red giant W Hydrae, 320 light years distant in the constellation of Hydra, the Water Snake.
The sharpest image yet of a red giant star: 320 light years from Earth, the star W Hydrae is a few billion years further on than the Sun in its life. For comparison, the dotted ring shows the size of the Earth’s orbit around the Sun, seen from an angle. (courtesy: Alma (ESO/NAOJ/NRAO)/W. Vlemmings)
W Hydrae is an example of an AGB (asymptotic giant branch) star. Such stars are cool, bright, old and lose mass via stellar winds. The name derives from their position on the famous Hertzsprung-Russell diagram, which classifies stars according to their brightness and temperature.
– For us it’s important to study not just what red giants look like, but how they change and how they seed the galaxy with the elements that are the ingredients of life. Using the antennas of Alma in their highest-resolution configuration we can now make the most detailed observations ever of these cool and exciting stars, says Wouter Vlemmings.
Stars like the Sun evolve over timescales of many billion years. When they reach old age, they puff up and become bigger, cooler and more prone to lose mass in the form of stellar winds. Stars manufacture important elements like carbon and nitrogen. When they reach the red giant stage, these elements are released into space, ready to be used in subsequent generations of new stars.
Alma's images provide the clearest view yet of the surface of a red giant with a similar mass to the Sun. Earlier sharp images have shown details on much more massive, red supergiant stars like Betelgeuse and Antares.
The observations have also surprised the scientists. The presence of an unexpectedly compact and bright spot provides evidence that the star has surprisingly hot gas in a layer above the star’s surface: a chromosphere.
– Our measurements of the bright spot suggest there are powerful shock waves in the star’s atmosphere that reach higher temperatures than are predicted by current theoretical models for AGB stars, says Theo Khouri, astronomer at Chalmers and member of the team.
Direct imaging of even the biggest and closest stars, is a challenge for astronomers. In this graphic, the Alma image of W Hydrae is compared with the best images so far of other stars: the red giant R Doradus, the red supergiants Antares and Betelgeuse. A variety of imaging techniques and different wavelengths of light have been used to create these images; giant stars can have very different sizes seen in different wavelengths. The angular sizes of the stars in Alpha Centauri, the closest star system, and the dwarf planet Pluto (at its closest to Earth) are shown for comparison. (courtesy: ESO/K. Ohnaka (Antares); Alma (ESO/NAOJ/NRAO)/E. O’Gorman/P. Kervella (Betelgeuse); ESO (R Doradus); Alma (ESO/NAOJ/NRAO)/W. Vlemmings (W Hydrae)))
An alternative possibility is at least as surprising: that the star was undergoing a giant flare when the observations were made.
The scientists are now carrying out new observations, both with Alma and other instruments, to better understand W Hydrae’s surprising atmosphere. Observations like these with Alma’s highest-resolution configuration are challenging, but also rewarding, explains team member Elvire De Beck, also astronomer at Chalmers.
– It’s humbling to look at our image of W Hydrae and see its size compared to the orbit of the Earth. We are born from material created in stars like this, so for us it’s exciting to have the challenge of understanding something which so tells us both about our origins and our future, she says.
The results are presented in the paper The shock-heated atmosphere of an asymptotic giant branch star resolved by ALMA, published online in Nature Astronomy on 30 October 2017.
The team is composed of Wouter Vlemmings (Chalmers University of Technology, Sweden), Theo Khouri (Chalmers University of Technology, Sweden), Eamon O’Gorman (Dublin Institute for Advanced Studies, Ireland), Elvire De Beck (Chalmers University of Technology, Sweden), Elizabeth Humphreys (ESO), Boy Lankhaar (Chalmers University of Technology, Sweden), Matthias Maercker (Chalmers University of Technology, Sweden), Hans Olofsson (Chalmers University of Technology, Sweden), Sofia Ramstedt (Uppsala University, Sweden), Daniel Tafoya (Chalmers University of Technology, Sweden) and Aki Takigawa (Kyoto University, Japan).
More about Alma and Onsala Space Observatory
The Atacama Large Millimeter/submillimeter Array (Alma), an international astronomy facility, is a partnership of ESO, the U.S. National Science Foundation (NSF) and the National Institutes of Natural Sciences (NINS) of Japan in cooperation with the Republic of Chile. Alma is funded by ESO on behalf of its Member States, by NSF in cooperation with the National Research Council of Canada (NRC) and the National Science Council of Taiwan (NSC) and by NINS in cooperation with the Academia Sinica (AS) in Taiwan and the Korea Astronomy and Space Science Institute (KASI).
Chalmers University of Technology and Onsala Space Observatory have been involved in Alma since its inception; receivers for the telescope are one of many contributions. Onsala Space Observatory is host to the Nordic Alma Regional Centre, which provides technical expertise to the Alma project and supports astronomers in the Nordic countries in using Alma.
Onsala Space Observatory is Sweden's national facility for radio astronomy. The observatory provides researchers with equipment for the study of the earth and the rest of the universe. In Onsala, 45 km south of Gothenburg, it operates two radio telescopes and a station in the international telescope Lofar. It also participates in several international projects. The observatory is hosted by Department of Earth and Space Sciences at Chalmers University of Technology, and is operated on behalf of the Swedish Research Council.