Dark Flow Dark flow is the mysterious phenomenon behind whole clusters of galaxies moving as if pulled by an unknown point outside the visible universe. McKibillo

As if the universe weren’t strange enough, scientists have recently discovered that entire galaxy clusters—the largest known structures in the universe, consisting of thousands of galaxies—are moving toward the same area. And we have no idea what mysterious phenomenon is drawing them along. Whatever it is, it’s huge. So far, cosmologists’ best guess is that it’s the gravitational pull from something beyond the visible universe. NASA scientist Alexander Kashlinsky and a team of researchers discovered the mystery motion, dubbed “dark flow,” last year. Dark flow joins other cosmological mysteries, including dark matter and dark energy, none of which are easily explained by Einstein’s general theory of relativity, our current best theory of how gravity and the universe itself work. Solving even one of these riddles could turn physics on its head.

Dark Matter vs. Dark Energy:
Dark Matter is the name of the invisible mass that creates the gravity required to hold galaxies together.
Dark Energy refers to the force that’s causing the universe to expand far more rapidly than math suggests it should.  McKibillo

How to Find Dark Flow

Alexander Kashlinsky and his NASA team discovered dark flow by studying the cosmic microwave background (CMB). The CMB is electromagnetic radiation born from the big bang that blankets everything in the known universe like a uniform layer of static. When a galaxy cluster—a group of thousands of galaxies—moves through space, it drags high-energy electrons with it. These scatter the CMB radiation, disturbing it like the wake of a boat disturbs a lake. By searching for this disturbance, Kashlinsky’s team found evidence that all of the clusters they studied were moving toward a single point. They can’t see anything that would cause this bulk motion, so it may suggest that there is a very massive structure lurking beyond the edge of the visible universe pulling the galaxies toward it with its gravity.

So where is this big invisible thing? The latest cosmology models tend to assume that the universe is infinite and it’s just that we can only see part of it. Dark flow gives the first hint of what else might be out there, beyond the bounds of what can be observed directly from our solar system. It will be hard to learn more, though, since the source of the dark flow appears to be at least 46.5 billion light-years away, much farther than we can observe. Instead of trying to figure out how to peer beyond the visible universe, cosmologists are testing computer models of the universe’s evolution to pursue a possible cause of dark flow. Kashlinsky’s team is studying a new batch of data on the CMB and more galaxy clusters to refine their numbers. The more precise the observations, the better that theorists will be able to run simulations and test their ideas about what could be behind the mystery motion.

FAQ

Q. Where are the galaxies going?
A. Cosmologists think the galaxies could be heading toward a very large primeval structure, but so far they aren’t speculating on what that might be. All the motion they’ve observed has been toward a 20-degree region of the sky, between the constellations Centaurus and Vela, so the unknown could be in that area.

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Tags

Technology, Feature, big bang, cosmic microwave background, cosmology, dark energy, dark flow, dark matter, feature, galaxy, October 2009

The notion of dark energy came about in 1998, when scientists discovered that the universe is not only expanding, but it’s doing so faster than ever before. Physicists refer to whatever is powering this accelerated growth as dark energy. They estimate that the universe needs about three times as much energy as is stored in all known visible and dark matter combined to expand at its current rate.

Q. Could all these “dark” phenomena have the same cause?
A. It’s unlikely. We could account for dark energy and dark matter by modifying our theory of gravity, or we could find new particles that explain them. But the particles would have to be different: Dark matter would require weakly interacting particles clustered within galaxies, while the particles causing dark energy would need to be distributed throughout the entire universe.