he Milky Way is a spiral galaxy located in the Supergalactic Plane, and while we already know it’s special because it
contains Earth, it’s remarkable in other ways, too. Look across our cosmic backyard, for instance, and you’ll find the Milky Way is something of a rarity. In the Supergalatic Plane, measuring about a billion light years across, there’s a superhigh concentration of galaxies, but the vast majority of them are elliptical. Spiral galaxies like the Milky Way are far less common, and astronomers have long wanted to know why.
“Among the brightest galaxies, there are around twice as many ellipticals as spirals close to the Supergalactic Plane – it is not an enormous excess, but it is statistically significant,” explains Dr Till Sawala, a postdoctoral researcher at Durham University and the University of Helsinki. Keen to get to the bottom of this mystery, which has been known about for more than 40 years, he wondered whether it pointed to a flaw in the standard model of cosmology. With that in mind, he turned to a computer simulation for answers, and it points to an explanation.
“I first became interested in this question when I read a review by the Nobel Prize winner Jim Peebles where he pointed it out as an anomaly,” Sawala says. “I then saw him raise the same question at a cosmology symposium. He argued that such a large-scale difference in galaxy distribution, extending over hundreds of megaparsecs, was not expected in the standard cosmological model.” In other words, the distribution of galaxies should be more even within the several massive clusters and thousands of individual galaxies that make up the Supergalactic Plane. At large scales, the spatial distribution of matter in the universe is close to homogeneous, but that’s not what is being observed here.
Diese Geschichte stammt aus der Issue 161-Ausgabe von All About Space UK.
Starten Sie Ihre 7-tägige kostenlose Testversion von Magzter GOLD, um auf Tausende kuratierte Premium-Storys sowie über 8.000 Zeitschriften und Zeitungen zuzugreifen.
Bereits Abonnent ? Anmelden
Diese Geschichte stammt aus der Issue 161-Ausgabe von All About Space UK.
Starten Sie Ihre 7-tägige kostenlose Testversion von Magzter GOLD, um auf Tausende kuratierte Premium-Storys sowie über 8.000 Zeitschriften und Zeitungen zuzugreifen.
Bereits Abonnent? Anmelden
MYSTERIES OF THE UNI WHERE ARE ALL THE SPIRAL GALAXIES?
There are far fewer spiral galaxies than elliptical ones in the Supergalactic Plane, and scientists are keen to discover why
ZOMBIE STARS
+10 OTHER TERRIFYING SPACE OBJECTS
HOW TO BEAT LIGHT POLLUTION
Thought it was impossible to observe the wonders of the night sky from towns and cities? Think again. Follow our tips and tricks on successfully observing through sky glow
15 STUNNING STAR CLUSTERS
These beautiful stellar groupings are spattered across the cosmos
Eileen Collins "It was a difficult mission...we were the first to see Mir"
Having served as both the first female pilot and first female commander of NASA's Space Shuttle, Collins boosted the involvement of women in space exploration to a whole new level
MARS LEAKS FASTER WHEN IT'S CLOSER TO THE SUN
The Red Planet has lost enough water to space to form a global ocean hundreds of kilometres deep
FUTURE TECH KANKOH-MARU
This ambitious reusable spacecraft will be capable of taking 50 people to and from orbit
THE FINAL FRONTIER
Beyond the reach of the Sun is a fascinating region of the cosmos that were only just beginning to explore
A long-lost moon could explain Mars' weird shape and extreme terrain
A long-lost moon could explain why Mars is so different from the other rocky planets in the Solar System. Today Mars has two tiny moons.
A sprinkling of cosmic dust may have helped kick-start life on Earth
Cosmic dust may have helped kick-start life on Earth. New findings challenge a widely held assumption that this wasn't a plausible explanation.