Missing dark matter located

Researchers discover that intergalactic space is filled with the unseen matter.

By University of Tokyo, Kashiwa, Japan — Published: February 14, 2012

The two images illustrate the effect of gravitational lensing. A massive galaxy at the center of the right panel causes the images of the background galaxies (white spots) to be enlarged and brightened. Credit: Joerg Colberg/Ryan Scranton/Robert Lupton/SDSS

Researchers at the University of Tokyo’s Institute for the Physics and Mathematics of the Universe (IPMU) and Nagoya University used large-scale computer simulations and recent observational data of gravitational lensing to reveal how dark matter is distributed around galaxies.

The new research concludes that galaxies have no definite “edges.” Instead, galaxies have long outskirts of dark matter that extend to nearby galaxies, and intergalactic space is not empty but filled with dark matter.

It is well-known that there is a large amount of unseen matter called “dark matter” in the universe. It constitutes about 22 percent of the present-day universe while ordinary matter constitutes of only 4.5 percent. An important question still remains: Where is most of the dark matter in the universe?

Einstein’s general theory of relativity predicts that a light ray passing through a nearby massive object such as a galaxy is bent by the effect called “gravitational lensing.” For example, the effect causes the image of a distant galaxy to be deformed and brightened by an intervening galaxy. However, the effect itself is small and so cannot be easily detected for a single galaxy.

Only recently, images of millions of galaxies from the Sloan Digital Sky Survey (SDSS) made it possible to derive an averaged mass distribution around the galaxies. Earlier in 2010, an international research group led by Brice Menard then from University of Toronto, Canada, and Masataka Fukugita at IPMU used 24 million galaxy images from the SDSS and successfully detected the gravitational lensing effect caused by dark matter around the galaxies. From the result, they determined the projected matter density distribution over a distance of a 100 million light-years from the center of the galaxies.

Masataka Fukugita and Naoki Yoshida at IPMU, together with Shogo Masaki at Nagoya University, used large computer simulations of cosmic structure formation to unfold various contributions to the projected matter distribution. They showed that galaxies have extended to the outskirts of dark matter, well beyond the region where stars exist. The dark matter distribution is well organized but extended to intergalactic space, whereas luminous components such as stars are bound within a finite region.

More interestingly, the estimated total amount of dark matter in the outskirts of the galaxies explains the gap between the global cosmic mass density and that derived from galaxy number counting weighted by their masses. A long-standing mystery on where the missing dark matter is is now solved by the research. There is no empty space in the universe. Intergalactic space is filled with dark matter.

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JOHN C KREMER from COLORADO said:

It seems to me that dark matter and dark energy are one and the same. That their component or whatever is so small that the dark stuff is even found within the nucleus of all atoms, and any other particle, and thus throughout the intergalactic medium. The gravity component can be observed by the warping of light surrounding galaxy collections and this would be contineous throughout all of the universe. If all of the universe were known, there might be so much dark stuff outside of the boundry of the galactic stuff that its effect might be the reason the known universe expansion would be excelleration.

Submitted: 3/1/2012 5:15:09 PM (CST)

RON CHINCHEN said:

Seems my first attempt to get on this forum failed so will try again. Question I ask is could dark matter/energy by the very fabric of space itself, given that space is always being created and is expanding, is affected by gravity, is not nothing but is something, and the accelerated expansion of the Universe would thereby be explained. Would explain clumping around galaxies and if it has some form of mass/energy unknown to us, it is constantly adding mass to the Universe. May be way off the mark, but can someone explain why not.

Submitted: 2/25/2012 10:56:21 PM (CST)

RON CHINCHEN said:

Given that space is continuously being created between the galaxies, and that space itself is influenced and can be warped by gravity, could it be that dark matter and energy are actually the very fabric of space itself and that space is a form of energy/matter we are yet to understand.

This would explain gravitational clumping around galaxies and also why the universe is accelerating, because more space matter/energy is continuously being created thereby adding to the total mass of the Universe and increasing its volume exponentially.

Submitted: 2/24/2012 4:15:47 PM (CST)

CHRIS R BAKER from CALIFORNIA said:

Is seems to me that the astronomers have finally found the aether.

Submitted: 2/24/2012 2:41:56 PM (CST)

NICOLAS TATARINOFF said:

If dark matter makes up 22% of the universe, why does it not pool and why is it not affected by the various gravitational forces the are around and affect everything else?

Submitted: 2/19/2012 1:19:40 AM (CST)

RICHARD MCCONNELL said:

The mystery of dark matter deepens. We now need a map of its distribution, perhaps collected by the methods described, to see if it is 'lumpy', and how closely it relates to visible galaxies, if at all. Previous studies have suggested that it is intimately linked to galaxies, but this research suggests otherwise.

Submitted: 2/18/2012 4:30:49 AM (CST)

SAM NAUMAN from TEXAS said:

I suppose dark matter leaves us all in the dark. I have been puzzling about the nature of this "dark matter". It seems to have gravity but does not cause emission or absorption of energy. One can understand that it does not cause emission but surely light passing through it would not be seen if it was dark. i.e. opaque. So it really is not dark either. It allows electromagnetic waves to propagate through it with no loss at all. In other words it is transparent. That is if it is matter at all. We must be missing something fundamental and trying to explain it by what we know, but that is a start. The danger is that this might lead us down the wrong path and stop us from thinking outside the box.

Submitted: 2/17/2012 2:49:55 PM (CST)

GERARDO W FSCHER said:

So far, we find the existence of matter in the range from photons, neutrinos (and anti-neutrinos) of 3 kinds, charged leptons of 3 kinds (and their antis), mesons (composed of 2 quarks and/or antiquarks), baryons (composed of normally 3 quarks or anti-) and the fields of bosons in the nuclei of atoms. The most diffuse are radio waves, but they are still photons. And all of them are limited in their movements by the speed of light (as in empty space). This limitation is not valid for gravitation fields, and if these possibly can exist as attractive concentrations without the presence of matter of any kind, they might be the invisible but nevertheless present stuff that makes 'dark matter'.

Submitted: 2/17/2012 2:33:09 PM (CST)

DAVID JUNIOR SR said:

I guess the question is: What dark matter looks like?. Is it called dark because it can not be seen and measured with existing instruments or because of any other reason.
If the dark matter is filling the space intergallaxy, would that be acceptable to suggest that this matter should fill also the space between ordinary matter in our earth atmospher?
There may be an anti-gravitational effect between dark matter which results in a impact to the ordinary matter by pushing them aside one from the other, do you agree with this?.

Submitted: 2/17/2012 1:58:33 AM (CST)