The Milky Way and Andromeda galaxy won’t collide for next 4 billion years. But but a recent discovery of a massive halo of hot gas close to Andromeda Galaxy may mean that our galaxies are already touching. Astrophysicist Nicholas Lehner from University of Notre Dame, led a group of scientists using the Hubble Space Telescope to detect an enormous halo of hot, ionized gas about 2 million light years in diameter around the galaxy.
|The Andromeda and Milky Way Merger. Image Credit: NASA; ESA; Z. Levay and R. van der Marel, STScI; T. Hallas; and A. Mellinger|
The Andromeda Galaxy and Milky Way are the largest member of a ragtag group of some 54 galaxies, called the Local Group. Andromeda, with almost a trillion stars — twice as many as the Milky Way — shines 25% brighter and can simply be seen with the naked eye from outlying and rural skies.
If the recently discovered halo spreads at least a million light years in our direction, our two galaxies are way MUCH closer to touching than previously thought.
Lehner defines halos as the “gaseous atmospheres of galaxies”. Regardless of its huge size, Andromeda’s nimbus is almost invisible. To observe and study the halo, the astronomer sought out quasars, distant star-like objects that emit incredible amounts of energy as matter is sucked into the supermassive black holes. The brightest quasar, 3C273 in Virgo, can be easily observed with in a 6-inch telescope!
Quasars’ bright, pinpoint nature make them perfect probes. J. Christopher Howk, associate professor of physics at Notre Dame and co-investigator, said “As the light from the quasars travels toward Hubble, the halo’s gas will absorb some of that light and make the quasar appear a little darker in just a very small wavelength range,” said J. Christopher Howk , associate professor of physics at Notre Dame and co-investigator. By measuring the dip in brightness, we can tell how much halo gas from M31 there is between us and that quasar”
|To spot Andromeda’s halo, Lehner and his group studied how the light of 18 quasars (five shown above) was engrossed by the galaxy’s gas. Image Credit: NASA|
Astronomers have studied halos around 44 other galaxies but they never discovered one as massive as Andromeda where so many quasars are accessible to clearly outline its extent. The previous 44 were all very distant galaxies, with only a lone quasar or data point to regulate halo size and structure.
The halo is projected to comprise half the mass of the stars in the Andromeda galaxy itself, in the form of a hot, rambling gas. Simulations propose that it was formed at the same time as the rest of the Andromeda galaxy.
Even though mostly composed of ionized hydrogen — bare protons and electrons — Andromeda’s aura is amazingly rich in heavier elements, possibly supplied by supernovae.
They explode inside the visible galaxy and aggressively blow good stuff like iron, silicon, oxygen and other similar elements far into space.
Previous researches have shown that over Andromeda’s lifetime, almost half of all the heavy elements assembled by its stars have been ejected far outside the galaxy’s 200,000-light-year-diameter stellar disk.