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Test will show if dark energy interacts with dark matter

An astrophysicist has proposed a way to test whether invisible dark matter responds to the invisible field known as dark energy

THE tale of Galileo dropping two cannonballs of unequal weights from the Leaning Tower of Pisa laid the cornerstone for a theory that explains the way matter behaves in a gravitational field. Now a test on a far grander scale, involving stars and galaxies, could determine how the unseen mass that makes up dark matter behaves under the influence of the unseen field known as dark energy.

Mike Kesden of the Canadian Institute for Theoretical Astrophysics in Toronto has a model for how the dark matter thought to make up 90 per cent of the mass of a galaxy interacts with dark energy, the force thought to be causing the expansion of the universe to accelerate. Because of this interaction, he thinks dark matter acquires an extra 鈥渕ass鈥 that attracts other dark matter. Normal matter, however, is immune to this attraction.

Kesden, of course, can鈥檛 lob balls of dark matter off the nearest tower to test how it responds to this extra force. Instead, he is proposing an astronomical alternative. He wants to study stars that belong to the Sagittarius dwarf galaxy, which orbits the Milky Way and is being torn apart by the tidal forces of our galaxy鈥檚 much stronger gravitational field. The dwarf鈥檚 central core of stars is intact, but the stars in its outer regions have been teased out into two streams, one leading the dwarf鈥檚 core and the other trailing it.

If Kesden鈥檚 model is correct, the invisible dark-matter core of the Sagittarius dwarf should experience not only the gravity of the Milky Way鈥檚 combined matter and dark matter, but also an additional force due to the Milky Way鈥檚 dark matter alone. This extra force would accelerate the dwarf galaxy鈥檚 dark-matter core in its orbit around the Milky Way, dragging the stars in the core along with it. Meanwhile, stars in the two streams, which are no longer tightly bound to the dark-matter core, would move in orbits that are far less affected by the extra force.

According to Kesden鈥檚 calculations, the effect of the extra dark-matter force would appear in an unequal distribution of stars in the leading and trailing streams. 鈥淚t would look like the trailing stream is longer and has more stars in it,鈥 he says.

At this week鈥檚 meeting of the American Astronomical Society in Calgary, Alberta, Kesden suggested that existing data from large-scale sky surveys may be sufficient to test for the presence of an additional dark-matter force to within 鈥渁 few per cent鈥.

鈥淪agittarius should experience the gravity of the Milky Way鈥檚 matter and dark matter, plus another force due to dark matter alone鈥

鈥淭he approach makes a lot of sense,鈥 says cosmologist Jim Peebles of Princeton University. Peebles has previously proposed a similar mechanism to explain why the large voids between superclusters of galaxies appear to be emptier than current theories predict. Most astronomers still disagree with the idea of a unique dark-matter force, so if Kesden鈥檚 test reveals such a force 鈥渢hat would be very important鈥, says Peebles.