Exiled from the Milky Way
Astronomers discover two castaway stars leaving the galaxy on a one-way, hypervelocity trip.
February 12, 2006
This artist's conception depicts a hypervelocity star as it is hurled from the galactic center. Stellar exiles like this one travel at speeds greater than 1 million mph.
Photo by Ruth Bazinet, CfA
|February 12, 2006|
Stellar exiles make up a new class of stars those leaving the Milky Way says astronomer Warren Brown of the Harvard-Smithsonian Center for Astrophysics (CfA).
Brown and colleagues discovered the first castaway in 2005, and they suspect as many as 1,000 such stars exist among the Milky Way's 100 billion.
Astronomers theorize that stellar exiles began their lives as binary star systems near the Milky Way's galactic center. "Computer models show that hypervelocity stars are naturally made near the galactic center," says CfA theorist Avi Loeb. He adds, "We know the galactic center holds a supermassive black hole. So, exiled stars inevitably will be produced when binaries pass too close to the black hole." In this scenario, one star is captured by the black hole's gravity, while the other is hurled outward at an astounding speed in excess of 1 million mph.
Using the Multiple Mirror Telescope (MMT) about 30 miles (55 kilometers) south of Tucson, Arizona, the team identified two more castaway stars in January 2006. The CfA astronomers searched for and found the hypervelocity stars by preselecting candidates based on the characteristics of known stellar exiles.
In this Sloan Digital Sky Survey (SDSS) photograph, the arrow points to one of two hypervelocity stars discovered by astronomers at the Harvard-Smithsonian Center for Astrophysics. The image is 7' by 7', or about 1/15 the size of the Full Moon.
Photo by SDSS Collaboration
The first newly discovered exile has the mass of about 4 Suns, is some 240,000 light-years distant, and travels at about 1.25 million mph (2.01 million km/hr). The second castaway, also about 4 solar masses, is some 180,000 light-years away from Earth and is moving out of the galaxy at about 1.43 million mph (2.30 million km/hr). Exiting the Milky Way at hypervelocity, these stars are moving fast enough to escape our galaxy's gravitational grasp.
Stellar ejections happen rarely about one every 100,000 years, astronomers estimate. To date, a total of five stellar exiles have been found; three by Brown and his colleagues and two by European groups.