Found! Most Distant Stars in Milky Way Galaxy
ESA,NASA, Haverford College, American Museum of Natural History, Carnegie Institute's Department of Terrestrial Magnetism
This simulated image demonstrates how small the Milky Way would look from the location of ULAS J0744+25, nearly 775,000 light-years away.
NASA, ESA and the Hubble SM4 ERO Team
In a discovery announced on Sept. 4, 2013, a population of planetary nebulae near the galactic core appear to be, weirdly, preferentially aligned to the Milky Way's galactic plain. The nebulae, known as "bipolar" (or "butterfly") planetary nebulae are completely non-interacting and of various ages, suggesting some external force is shaping their orientation. It's thought that a powerful magnetic field may be the culprit.
The researchers used observations from the Hubble Space Telescope and ESO's New Technology Telescope, so here are a small selection of some stunning examples of bipolar planetary nebulae as seen through the eye of Hubble. Shown here is the stunning NGC 6302 -- an intricate example of a bipolar planetary nebula's butterfly wings.
Bruce Balick (University of Washington), Vincent Icke (Leiden University, The Netherlands), Garrelt Mellema (Stockholm University), and NASA/ESA
Hubble 5: A classically-shaped bipolar (or 'butterfly') planetary nebula.
ESA/Hubble & NASA
NGC 6881: A binary star possibly shapes this wonderfully symmetrical nebula.
NASA, ESA and the Hubble Heritage Team (STScI/AURA)
NGC 5189: A dramatic view of the ribbons of bright material being ejected from a planetary nebula.
The boundaries of our home galaxy may have to be redrawn.
Astronomers have discovered the farthest-flung stars yet known in the Milky Way. The two objects — known as ULAS J0744+25 and ULAS J0015+01 — are about 775,000 and 900,000 light-years from Earth, respectively, making them both about five times more distant than a satellite galaxy known as the Large Magellanic Cloud.
"The distances to these two stars are almost too large to comprehend," study lead author John Bochanski, of Haverford College in Pennsylvania, said in a statement. "To put it in perspective, when the light from ULAS J0015+01 left the star, our early human ancestors were just starting to make fires here on Earth." [Our Milky Way Galaxy: A Traveler's Guide (Infographic)]
The Milky Way extends far beyond its familiar disk, which is just 100,000 light-years or so wide. The galaxy is surrounded by a sparse "halo" of stars — perhaps stragglers left out there after the Milky Way's many mergers with dwarf galaxies over the eons, researchers say.
Scientists know this halo extends to at least 500,000 light-years away, but its exact dimensions are unknown. Bochanski and his colleagues decided to probe the halo's outer reaches, hunting for a type of star called cool red giants.
Cool red giants are much rarer than red dwarfs, which make up about 70 percent of the Milky Way's stars. But they're about 10,000 times brighter, making them much easier to see from a distance.
"It really is like looking for a needle in a haystack," Bochanski said. "Except our haystack is made up of millions of red dwarf stars."
The team pored over images collected by the UKIRT Infrared Deep Sky Survey, which uses the United Kingdom Infrared Telescope in Hawaii, and the Sloan Digital Sky Survey, which employs a telescope in New Mexico. They detected ULAS J0744+25 and ULAS J0015+01 in these data, then confirmed them by taking spectroscopic data with the 6.5-meter telescope at the MMT Observatory in Arizona.
The two stars' extreme distance was confirmed by a variety of different estimation techniques, researchers said. ULAS J0744+25 and ULAS J0015+01 are more than 50 percent farther from the sun than any other Milky Way star yet discovered, researchers said. In fact, the famous Andromeda galaxy is just three times farther away than ULAS J0744+25 and ULAS J0015+01.
But the new study, which was published last week in Astrophysical Journal Letters, provides more than gee-whiz appeal. It could help astronomers test some of their models of the Milky Way's formation and evolution, team members said.
"We think these stars might be the brightest members of some leftover remnants of the MW's formation," Bochanski told Space.com via email. "We will need more observations to be sure of it, but if there are significant numbers of stars in the outer halo, then the models will need to be revised."
Originally published on Space.com.
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