This high-resolution image was created from 2 separate pointings of HST. Sometimes life for astronomers isn't so simple, but it is from exploring discrepancies like this that our understanding eventually deepens. So the blue stragglers in M80 seem to indicate that there are lots of collisions, yet the nova-like stars suggest only a few. Curiously, however, the WFPC2 observations have revealed only two other nova-like close binary stars in M80, far fewer than expected theoretically based on the stellar collision rate. The ultraviolet Hubble observations have revealed the hot, faint remnant of this exploding star, which was named T Scorpii in the 19th century. Eventually the hydrogen ignites a thermonuclear explosion on the surface of the white dwarf, giving rise to the nova outburst. Nova outbursts occur when a close companion star transfers fresh hydrogen fuel to a burned-out white dwarf. M80 is also unusual because it was the site of a nova explosion in the year 1860. Based on the number of blue stragglers, the stellar collision rate in the core of M80 appears to be exceptionally high. M80 was previously unknown to contain blue stragglers, but is now known to contain more than twice as many as any other globular cluster surveyed with NASA's Hubble Space Telescope (HST). This produces an unusually massive single star, which mimics a normal, young star. However, stellar collisions can occur in dense stellar regions like the core of M80 and, in some cases, the collisions can result in the merger of two stars. These stars appear to be unusually young and more massive than the other stars in a globular cluster. By analyzing the Wide Field and Planetary Camera 2 (WFPC2) images, including images taken through an ultraviolet filter, astronomers have found a large population of "blue stragglers" in the core of the cluster. Especially obvious are the bright red giants, which are stars similar to the Sun in mass that are nearing the ends of their lives.
Every star visible in this image is either more highly evolved than, or in a few rare cases more massive than, our own Sun.
Globular clusters are particularly useful for studying stellar evolution, since all of the stars in the cluster have the same age (about 15 billion years), but cover a range of stellar masses. Located about 28,000 light-years from Earth, M80 contains hundreds of thousands of stars, all held together by their mutual gravitational attraction. This stellar swarm is M80 (NGC 6093), one of the densest of the 147 known globular star clusters in the Milky Way galaxy.
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