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Stars Just Got Bigger | ESO

eso1030 — Science Release

Stars Just Got Bigger

A 300 Solar Mass Star Uncovered

21 July 2010

Using a combination of instruments on ESOòÀÙs Very Large Telescope, astronomers have discovered the most massive stars to date, one weighing at birth more than 300 times the mass of the Sun, or twice as much as the currently accepted limit of 150 solar masses. The existence of these monsters òÀÔ millions of times more luminous than the Sun, losing weight through very powerful winds òÀÔ may provide an answer to the question òÀÜhow massive can stars be?òÀÝ

A team of astronomers led by Paul Crowther, Professor of Astrophysics at the University of Sheffield, has used ESOòÀÙs Very Large Telescope (VLT), as well as archival data from the NASA/ESA Hubble Space Telescope, to study two young clusters of stars, NGC 3603 and RMC 136a in detail. NGC 3603 is a cosmic factory where stars form frantically from the nebulaòÀÙs extended clouds of gas and dust, located 22ˆà000 light-years away from the Sun (eso1005). RMC 136a (more often known as R136) is another cluster of young, massive and hot stars, which is located inside the Tarantula Nebula, in one of our neighbouring galaxies, the Large Magellanic Cloud, 165 000 light-years away (eso0613).

The team found several stars with surface temperatures over 40 000 degrees,ˆàmore than seven times hotter than our Sun,ˆàand a few tens of times larger and several million times brighter. Comparisons with models imply that several of these stars were born with masses in excess of 150 solar masses. The star R136a1, found in the R136 cluster, is the most massive star ever found, with a current mass of about 265 solar masses and with a birthweight of as much as 320 times that of the Sun.

In NGC 3603, the astronomers could also directly measure the masses of two stars that belong to a double star system [1], as a validation of the models used. The stars A1, B and C in this cluster have estimated masses at birth above or close to 150 solar masses.

Very massive stars produce very powerful outflows. òÀÜUnlike humans, these stars are born heavy and lose weight as they age,òÀÝ says Paul Crowther. òÀÜBeing a little over a million years old, the most extreme star R136a1 is already òÀØmiddle-agedòÀÙ and has undergone an intense weight loss programme, shedding a fifth of its initial mass over that time, or more than fifty solar masses.òÀÝ

If R136a1 replaced the Sun in our Solar System, it would outshine the Sun by as much as the Sun currently outshines the full Moon. òÀÜIts high mass would reduce the length of the Earth's year to three weeks, and it would bathe the Earth in incredibly intense ultraviolet radiation, rendering life on our planet impossible,òÀÝ says Raphael Hirschi from Keele University, who belongs to the team.

These super heavyweight stars are extremely rare, forming solely within the densest star clusters. Distinguishing the individual stars òÀÔ which has now been achieved for the first time òÀÔ requires the exquisite resolving power of the VLTòÀÙs infrared instruments [2].

The team also estimated the maximum possible mass for the stars within these clusters and the relative number of the most massive ones.ˆà òÀÜThe smallest stars are limited to more than about eighty times more than Jupiter, below which they are òÀØfailed starsòÀÙ or brown dwarfs,òÀÝ says team member Olivier Schnurr from the Astrophysikalisches Institut Potsdam. òÀÜOur new finding supports the previous view that there is also an upper limit to how big stars can get, although it raises the limit by a factor of two, to about 300 solar masses.òÀÝ

Within R136, only four stars weighed more than 150 solar masses at birth, yet they account for nearly half of the wind and radiation power of the entire cluster, comprising approximately 100 000 stars in total. R136a1 alone energises its surroundings by more than a factor of fifty compared to the Orion Nebula cluster, the closest region of massive star formation to Earth.

Understanding how high mass stars form is puzzling enough, due to their very short lives and powerful winds, so that the identification of such extreme cases as R136a1 raises the challenge to theorists still further. òÀÜEither they were born so big or smaller stars merged together to produce them,òÀÝ explains Crowther.

Stars between about 8 and 150 solar masses explode at the end of their short lives as supernovae, leaving behind exotic remnants, either neutron stars or black holes. Having now established the existence of stars weighing between 150 and 300 solar masses, the astronomersòÀÙ findings raise the prospect of the existence of exceptionally bright, òÀÜpair instability supernovaeòÀÝ that completely blow themselves apart, failing to leave behind any remnant and dispersing up to ten solar masses of iron into their surroundings. A few candidates for such explosions have already been proposed in recent years.

Not only is R136a1 the most massive star ever found, but it also has the highest luminosity too, close to 10 million times greater than the Sun. òÀÜOwing to the rarity of these monsters, I think it is unlikely that this new record will be broken any time soon,òÀÝ concludes Crowther.

Notes

[1] The star A1 in NGC 3603 is a double star, with an orbital period of 3.77 days. The two stars in the system have, respectively, 120 and 92 times the mass of the Sun, which means that they have formed as stars weighing, respectively, 148 and 106 solar masses.

[2] The team used the SINFONI, ISAAC and MAD instruments, all attached to ESOòÀÙs Very Large Telescope at Paranal, Chile.

[3] (note added on 26 July 2010) The "bigger" in the title does not imply that these stars are the biggest observed. Such stars, called red supergiants, can have radii up to about a thousand solar radii, while R136a1, which is blue, is about 35 times as large as the Sun. However, R136a1 is the star with the greatest mass known to date.

More information

This work is presented in an article published in the Monthly Notices of the Royal Astronomical Society (òÀÜThe R136 star cluster hosts several stars whose individual masses greatly exceed the accepted 150 Msun stellar mass limitòÀÝ, by P. Crowther et al.).

The team is composed of Paul A. Crowther, Richard J. Parker, and Simon P. Goodwinˆà (University of Sheffield, UK), Olivier Schnurr (University of Sheffield and Astrophysikalisches Institut Potsdam, Germany), Raphael Hirschi (Keele University, UK), and Norhasliza Yusof and Hasan Abu Kassim (University of Malaya, Malaysia).

ESO, the European Southern Observatory, is the foremost intergovernmental astronomy organisation in Europe and the worldòÀÙs most productive astronomical observatory. It is supported by 14 countries: Austria, Belgium, the Czech Republic, Denmark, France, Finland, Germany, Italy, the Netherlands, Portugal, Spain, Sweden, Switzerland and the United Kingdom. ESO carries out an ambitious programme focused on the design, construction and operation of powerful ground-based observing facilities enabling astronomers to make important scientific discoveries. ESO also plays a leading role in promoting and organising cooperation in astronomical research. ESO operates three unique world-class observing sites in Chile: La Silla, Paranal and Chajnantor. At Paranal, ESO operates the Very Large Telescope, the worldòÀÙs most advanced visible-light astronomical observatory and VISTA, the worldòÀÙs largest survey telescope. ESO is the European partner of a revolutionary astronomical telescope ALMA, the largest astronomical project in existence. ESO is currently planning a 42-metre European Extremely Large optical/near-infrared Telescope, the E-ELT, which will become òÀÜthe worldòÀÙs biggest eye on the skyòÀÝ.

Links

Contacts

Paul Crowther
University of Sheffield
UK
Tel: +44 114 222 4291
Cell: +44 7946 638 474
Email: Paul.Crowther@sheffield.ac.uk

Olivier Schnurr
Astrophysikalisches Institut Potsdam
Potsdam, Germany
Tel: +49 331 7499 353
Email: oschnurr@aip.de

Henri Boffin
ESO, La Silla, Paranal and E-ELT Press Officer
Garching, Germany
Tel: +49 89 3200 6222
Cell: +49 174 515 43 24
Email: hboffin@eso.org

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About the Release

Release No.:eso1030
Name:RMC 136a
Facility:Very Large Telescope
Science data:2010MNRAS.408..731C

Images

The young cluster RMC 136a
The young cluster RMC 136a
The sizes of stars (annotated)
The sizes of stars (annotated)
The sizes of stars
The sizes of stars
The young cluster RMC 136a
The young cluster RMC 136a

Videos

Zooming in on the young cluster RMC 136a
Zooming in on the young cluster RMC 136a

Also see our