Mystery of dark matter may be near to being deciphered

Mystery of dark matter may be near to being deciphered
The ESA satellite Planck was launched on the 14th of May 2009. The satellite does not just remain still in space, but changes direction every hour as well as rotates once a minute on its own axis. These movements mean that it scans the entire surrounding Universe in the course of six months.

(Phys.org)—The universe is comprised of a large amount of invisible matter, dark matter. It fills the space between the galaxies and between the stars in the galaxies. Since the prediction of the existence of dark matter more than 70 years ago, all sorts of researchers – astronomers, cosmologists and particle physicists have been looking for answers to what it could be. With the latest observations from the Planck satellite, researchers from the Niels Bohr Institute, among others, may be closer than ever to a solution to the origin of the mysterious dark matter.

The Planck satellite, which was launched in 2009, has extremely sensitive instruments that can map in the entire sky with great precision. The latest data from the reveals unusual radiation from our own galaxy, which open a new direction in understanding the most of the space, time and matter in the Universe.

Radiation from dark matter

"We have observed a very unique emission of radio radiation from the centre of our galaxy, the Milky Way. By using different methods to separate the signal for very broad range of   wavelengths, we have been able to determine the spectrum of the radiation. The radiation originates from synchrotron emission, i.e. electrons and circulating at high energies around the lines of the Magnetic Field in the centre of the galaxy, and there are quite strong indications that it could come from dark matter," explains Pavel Naselsky, professor of cosmology at the Discovery Center at the Niels Bohr Institute at the University of Copenhagen.

Mystery of dark matter may be near to being deciphered
The image shows emission from the centre of the Milky Way, detected by PLANCK satellite. The black zone mask is emission from the galactic disk, the blue-red-white zone in the centre of the map is the new abnormal radiation.

Pavel Naselsky explains that leading scientists like Niels Bohr professor Subir Sarkar have predicted, using calculations, that dark matter may consist of very heavy particles that are around 10 times as heavy as the , that is to say, 1,000 times heavier than a proton. But they have very and do not interact with 'normal' matter particles. Dark matter particles are also usually very scattered and do not interact with each other.

"But we know from theoretical predictions that the concentration of dark matter particles around the centre of galaxies is very high and we have a strong argument they can collide there and in the collision electrons and positrons are formed. These electrons and positrons start to rotate around the magnetic field at the centre of the galaxy and in doing so produce this very unusual synchrotron radiation.

It has simply not been possible to observe this radiation in such detail before, as previous instruments have not been sensitive enough. But with Planck, this unusual radiation is seen very clearly.

"The radiation cannot be explained by the structural mechanisms in the galaxy and it cannot be radiation from supernova explosions. We believe that this could be proof of dark matter. Otherwise, we have discovered absolutely new (and unknown for physics) mechanism of acceleration of particles in the Galactic centre", says Pavel Naselsky, and he expects exciting new results already within the next few months.

The results have been published in ArXiv:1208.5483 and submitted to the scientific journal, Astronomy and Astrophysics.

More information: Article in ArXiv: arxiv.org/abs/1208.5483

Citation: Mystery of dark matter may be near to being deciphered (2012, September 4) retrieved 22 December 2024 from https://phys.org/news/2012-09-mystery-dark-deciphered.html
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