1. Home
  2. Space
  3. News

Ghostly galaxy discovered lurking on the edge of the Milky Way

By

A team of astronomers from the University of Cambridge have discovered a strange galaxy next door to the Milky Way. The dwarf galaxy, named Antlia 2, is dark and dim and gives out much less light than expected, hence being described as “ghostly.”

Dwarf galaxies were some of the earliest galaxies to form after the big bang, and because they are so ancient most of their stars are old and have low levels of metals. They have relatively few stars within them — from 100 million to several billion stars, far fewer than the 200 billion to 400 billion stars that are within our Milky Way galaxy. Dwarf galaxies are usually small as well, making them vulnerable to being pulled apart by neighboring galaxies which are much larger and more massive.

Recommended Videos

Antlia 2 is unusual for a dwarf galaxy, because it is much larger than is typical. It is as big as the Large Magellanic Cloud (LMC), a satellite galaxy of the Milky Way, which is about one third the size of the Milky Way itself. Even more unusually, Antlia 2 gives out very little light. It is 10,000 times fainter than the LMC, which means that it is unexpectedly dim for such a large galaxy.

L-R: Large Magellanic Cloud, the Milky Way, Antlia 2 V. Belokurov based on the images by Marcus and Gail Davies and Robert Gendler

Researchers believe that Antlia 2 is dim because it is effected by the gravitational tides of the Milky Way. Although the ghost galaxy is far enough away from the Milky Way not to be torn apart by it — always remaining at least 40 kiloparsecs (130,000 light years) away — it is still affected by the huge mass of the larger galaxy. Antlia 2 has relatively very little mass to it, so it is highly susceptible to these gravitational forces. However, it would be expected that Antlia 2 would be small as well as low mass, and researchers cannot currently explain why Antlia 2 is so large. Normally the gravitational pull of a larger galaxy would cause a dwarf galaxy to shrink, not to grow.

Two possible explanations for Antlia 2’s low mass and large size have been offered: Firstly, it could have started off as a large galaxy and then grown even larger due to the vigorous birth of stars which expands gas around them, weakening the gravitational pull to the center of the galaxy. Alternatively, a different understanding of dark matter may be required. Previously it was believed that dark matter congregated in the center of galaxies, but it may be that dark matter is less prone to clustering than currently thought and could spread throughout a galaxy.

The scientific paper is available in pre-publication archive arXiv.

Editors' Recommendations

Topics
Georgina Torbet
Space Writer
Georgina is the Digital Trends space writer, covering human space exploration, planetary science, and cosmology. She…
Hubble revisits a funky irregular dwarf galaxy

The majority of the thousands of galaxies we've discovered out in the universe fit into relatively well-defined categories: spiral galaxies like our Milky Way, elliptical galaxies which are long and thin, and lenticular galaxies which are somewhat halfway between the two. But some galaxies are oddities that don't fit in these clear shapes, and those are called irregular galaxies. These galaxies can be chaotic and nonsymmetrical and can be formed by gravitational forces pulling regular galaxies into strange shapes.

This week's image from the Hubble Space Telescope shows one such irregular galaxy called NGC 1156. It doesn't have the reaching arms of a spiral galaxy nor the long shape of an elliptical, but it has characteristics of both. It has thousands of bright stars with areas of busy star formation like you'd expect to see in a spiral galaxy and the soft diffuse glow around its center suggests an elliptical. It's also a small galaxy, so it's a type classified as an irregular dwarf galaxy.

Read more
Merged galaxy gives a glimpse at the future of the Milky Way

At the heart of almost every galaxy lies an enormous black hole. These monsters are so massive that they get a classification of their own: supermassive black holes, with masses millions or even billions of times the mass of our sun. And when two galaxies collide, their supermassive black holes get closer and closer until these beasts eventually merge as well.

This almost incomprehensible process is on display in an image recently shared by the European Southern Observatory (ESO), showing an almost-merged galaxy that contains the closest pair of supermassive black holes ever discovered at just 1,600 light years apart. Galaxy NGC 7727 started off as two galaxies, which began merging around a billion years ago, and within the next few hundred million years, the two supermassive black holes are set to collide, creating an even bigger black hole in the process.

Read more
See four dwarf galaxies merging into one in this Hubble image

An image from the Hubble Space Telescope shared this week by NASA shows an unusual interaction of four dwarf galaxies. There are two small galaxies which are so close together that they look like one object, called NGC 1741, located at the top of the image. Then there is another cigar-shaped galaxy close by to the right, and a fourth galaxy in the bottom left which is connected to the other three by a stream of young stars.

Together, the four galaxies make up a set called the Hickson Compact Group 31, or HCG 31. The group is located 166 million light-years away from Earth, which is relatively close for seeing interacting dwarf galaxies. The galaxies are currently so close together, at within 75,000 light-years of each other, that all four of them would fit within the Milky Way.

Read more