The three-dimensional structure of the local universe may one day become as familiar as our local geography thanks to a new generation of maps that reveal our neighbourhood’s rich complexity and our place within it.
The geography of our world is one of the great cultural invariants. There can hardly be the person on the planet who isn’t familiar with the shape of the continents and how they dovetail together or of the Earth is a pale blue sphere orbiting the Sun with seven other planets.
Given a three-dimensional model of the solar system, almost everyone can zoom in from beyond the Oort cloud to the planet Earth and then even further to the street where they live. It is powerful shared knowledge.
But at greater distances, our geographical knowledge becomes a little blurred. Many people will have seen the extraordinary three-dimensional models of the filamentary structures that galaxies form on the larger scales in our universe.
And yet these structures remain strangely unfamiliar. Given an unlabelled three-dimensional model of this large-scale structure of the universe, who could point to the place we call home?
All that should begin to change in the next few years with the increasingly accurate maps that cosmologists are compiling of the three-dimensional distribution of galaxies within universe.
Today, Helene Courtois at the University of Lyon in France and a few buddies show off this newfound knowledge in a movie (and accompanying paper) that they’ve created to explore the rich structure of our galactic neighbourhood.
One of the key questions that this data can help to answer is whether the distribution of visible mass in the universe is an accurate reflection of the distribution of dark matter. Courtois and co so that the data shows that this is indeed the case.
The film does a fine job of showing the three-dimensional structure of this space. It also reveals the limitations of human language in describing this complex tapestry. That’s not really surprising given that our vocabulary has evolved to describe a geography that is essentially two-dimensional.