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  • [ ♪ Intro ]

  • Galaxies are all over the news this week!

  • Galaxies near, galaxies far, galaxies wherever you areand, yes, that does mean the Milky Way.

  • But first, in a paper published this week in the journal Nature, an international team

  • of astronomers discovered that a distant galaxy has almost no dark matter, throwing our expectations

  • straight out the window.

  • Dark matter isn't so much dark as it is invisible to all current methods of detection.

  • It doesn't interact with light at all, so we can't see it, but it does have mass,

  • so we can see the effects of its gravitational pull.

  • In most galaxies, dark matter is more abundant than regular, or baryonic, matter.

  • In our own Milky Way it outnumbers baryonic matter roughly 30 to 1, but in dwarf galaxies,

  • that ratio is over 10 times greater!

  • So to find a small galaxy with almost no dark matter at all would be super weird.

  • So, obviously, we found one.

  • It's called NGC1052–DF2, although we'll just call it DF2 for short.

  • To figure out how much dark matter it has, astronomers needed to compare the mass of

  • the matter we can see to the galaxy's total mass.

  • They were able to determine DF2's stellar mass, or how much of its mass comes from stars,

  • based on its brightness and distance.

  • The team estimated that it's around 65 million light-years away, which produced a stellar

  • mass of about 200 million times the mass of the Sun, which is roughly 250 times less than

  • that of the Milky Way.

  • Then they calculated the mass of the halo surrounding the galaxy, which should, theoretically,

  • be chock full of dark matter.

  • To do that, they measured the velocities of 10 different star clusters at distances between

  • 1300 and 25,000 light-years from the center.

  • Since a more massive galaxy will make stars orbit faster, they used those clusters'

  • velocities to calculate the total mass for the whole galaxy.

  • Then they subtracted the stellar mass they'd already accounted for, which left them with

  • the mass of the dark matter halo.

  • Which turned out to be less than 150 million times the mass of the Sun.

  • Now, that's not zero dark matter, but current models say the number should be closer to

  • 60 billion solar masses — 400 times more than what we're seeing!

  • Since it's such a unique oddity, we still don't know how a dark matter deficient galaxy

  • like DF2 came to be.

  • The team proposed a few ways it might have formed from regular matter that wouldn't

  • have taken much dark matter with it.

  • For example, from gas that was flung out of merging galaxies, or that was streaming toward

  • a neighboring galaxy but ended up splitting off.

  • Until we find more galaxies like this one, it'll be tough to come up with a solid origin story.

  • But the discovery does help show that dark matter and baryonic matter are not inexorably

  • linked to one anotherin other words, the amount of one does not determine the amount

  • of the other.

  • And, it helps put another nail in the coffin for hypotheses that dark matter isn't real,

  • and that what we call dark matter is actually just our own physics equations being wrong.

  • Because if that were the case, we wouldn't expect to find random galaxies with very little of it.

  • As for when we'll finally pin down what exactly dark matter is, only time will tell.

  • Much closer to home, astronomers have finally solved a mystery involving a galactic tug

  • of war and cannibalism on the outskirts of the Milky Way.

  • The Large and Small Magellanic Clouds are irregular dwarf galaxies about 160,000 and

  • 200,000 light-years from our own.

  • They both orbit the Milky Way, but as they do so, they also orbit one another.

  • The gravity involved in that system means that one of the Clouds has ripped away some

  • of the other's gas, and sent it spiraling toward us in a fragmented arc roughly half

  • the length of the Milky Way!

  • The question is: which Cloud is siphoning gas away from the other?

  • That's been a mystery for some time nowalthough admittedly not as long as the

  • arc has been around, since it's roughly 2 billion years old.

  • Obviously we weren't around back then to ask these kinds of questions.

  • Thanks to a paper published last month in the Astrophysical Journal, we may finally

  • have an answer.

  • Astronomers call this arc of gas the Leading Arm, because it's “leading the motion

  • of the Magellanic Clouds.

  • It kinda looks like this arm starts out in the Large Magellanic Cloud.

  • But to confirm its real galactic parent, the team used the Hubble Space Telescope to analyze

  • some of its composition, and compare it to both dwarf galaxies.

  • Specifically, they looked at the light from seven quasars, incredibly bright cores of

  • galaxies powered by supermassive black holes.

  • Based on where they're each located in space, the light from these quasars had to travel

  • through one of the Magellanic Clouds or the Leading Arm on its way to us.

  • And depending on their composition, the molecules in the Clouds and Arm would have absorbed

  • different wavelengths of the light as it passed through.

  • By analyzing which types of light were absorbed, the team was able to match the Arm's composition

  • withthe Small Magellanic Cloud.

  • Large Magellanic Cloud, you are not the father!

  • Or mother.

  • But you did kind of gravitationally tear off part of your galactic partner and allow the

  • Milky Way to cannibalize it and make new stars, so it's complicated.

  • Of course solving this mystery wasn't just to satisfy curiosity.

  • Understanding how gas falls - or accretes - into galaxies is an important step toward

  • better models of how galaxies grow and evolve.

  • But most galaxies are too far away for us to detect the light we'd need to study.

  • So the fact that we have an example of this galactic gas accretion right on our own front

  • porch is a huge benefit.

  • Between that and DF2's missing dark matter, we've got all kinds of galactic mysteries to solve!

  • Thanks for watching this episode of SciShow Space News!

  • For more on galaxies with weird amounts of dark matter, you can check out our episode

  • on Galaxy X, which is almost entirely made up of dark matter.

  • [ ♪ Outro ]

[ ♪ Intro ]

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