We finally know when our Milky Way will crash into the Andromeda galaxy
A view of the Andromeda galaxy, also known as M31, with measurements of the motions of stars within the galaxy. This spiral galaxy is the nearest large neighbor of our Milky Way.(ESA/Gaia (star motions); NASA/Galex (background image); R. van der Marel, M. Fardal, J. Sahlmann (STScI))
OurMilky Way galaxywill survive in its current form a bit longer than some astronomers had thought, a new study suggests.
The monster collision between our Milky Way and fellow spiral galaxy Andromeda will occur about 4.5 billion years from now, according to the new research, which is based on observations made by Europe’s Gaia spacecraft. Some prominent previous estimates had predicted the crash would happen significantly sooner, in about 3.9 billion years.
Gaia launched in December of 2013 to help researchers create the best 3D map of the Milky Way ever constructed. The spacecraft has been precisely monitoring the positions and movements of huge numbers of stars and other cosmic objects; the mission team aims to track more than 1 billion stars by the time Gaia shuts its sharp eyes for good.
Most of the stars Gaia is eyeing are in the Milky Way, but some are in nearby galaxies. In the new study, the researchers tracked a number of stars in our galaxy, in Andromeda (also known as M31) and in the spiral Triangulum (or M33). These neighbor galaxies are within 2.5 million to 3 million light-years of the Milky Way and may be interacting with each other, study team members said.
“We needed to explore the galaxies’ motions in 3D to uncover how they have grown and evolved and what creates and influences their features and behavior,” lead author Roeland van der Marel, of the Space Telescope Science Institute in Baltimore, said inthe same statement.
“We were able to do this using the second package of high-quality data released by Gaia,” van der Marel added, referring to a haul released in April 2018.
This work allowed the team to determine the rotation rates of both M31 and M33 — something that had never been done before, the researchers said. Using the Gaia-derived findings and analyses of archival information, the study team mapped out how M31 and M33 have moved through space in the past and where they’ll likely go over the next few billion years.
The team’s models give a later-than-expected date for the Andromeda-Milky Way smashup and also suggest that it will be more of a sideswipe than a head-on collision. (Because the distances between stars are so great, the odds that our own solar system will be disrupted by the merger are very low. But the crash will definitely liven up the night sky for any creatures that are around on Earth 4.5 billion years from now.)
“Gaia was designed primarily for mapping stars within the Milky Way — but this new study shows that the satellite is exceeding expectations and can provide unique insights into the structure and dynamics of galaxies beyond the realm of our own,” Prusti said. “The longer [that] Gaia watches the tiny movements of these galaxies across the sky, the more precise our measurements will become.”