The Daily Galaxy --Great Discoveries Channel: Sci, Space, Tech

The galactic bubble is known as RCW 120. It lies about 4,300 light-years away and has been formed by a star at its center. The star is not visible at these infrared wavelengths but pushes on the surrounding dust and gas with nothing more than the power of its starlight. In the 2.5 million years the star has existed, it has raised the density of matter in the bubble wall so much that the quantity trapped there can now collapse to form new stars.

The bright knot to the right of the base of the bubble in the Herschel Space Observatory image below is an unexpectedly large, embryonic star, triggered into formation by the power of the central star. Herschel's observations have shown that it already contains between eight to 10 times the mass of our sun. The star can only get bigger because it is surrounded by a cloud containing an additional 2,000 solar masses.

 

          

 

Not all of that material will fall onto the star, because even the largest stars in the galaxy do not exceed 150 solar masses. But the question of what stops the matter falling onto the star is a puzzle for modern astronomers.

According to theory, stars should stop forming at about 8 solar masses. At that mass, they should become so hot that they shine powerfully at ultraviolet wavelengths. This light should push the surrounding matter away, much as the central star did to form this bubble. But clearly sometimes this mass limit is exceeded otherwise there would be no giant stars in the galaxy.

Astronomers would like to know how some stars seem to defy physics and grow so large. Is this newly discovered stellar embryo destined to grow into a stellar monster? At the moment, nobody knows but further analysis of this Herschel image could give us invaluable clues.

The Daily Galaxy via http://www.nasa.gov/mission_pages/herschel/herschel20100506a.html

Image credit: ESA/PACS/SPIRE/HOBYS Consortia

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