Posted on 10/02/2003 12:55:26 PM PDT by Ernest_at_the_Beach
The identity of the Universe's dark matter may finally have been discovered. In what seems to be the most convincing claim for dark matter so far, researchers in England and France say gamma rays coming from the centre of our galaxy show hallmarks of these ghostly particles.
The research has only just been made public, so the team is still waiting for a response from other dark matter experts. But though the researchers are cautious, there is no hiding their excitement. "I've dropped everything else to work on this," says Dan Hooper of the University of Oxford. "We're really excited," adds his colleague Céline Boehm, also of Oxford. "I'm cautious but it's surprising everything fits so well."
The identity of the Universe's dark matter, which outweighs the visible stuff by at least a factor of seven, is the outstanding mystery of modern astronomy. Scientists think it must exist because its gravity affects the way galaxies hold together. But the particles do not emit any electromagnetic radiation so they have never been detected directly. No one knows what the particles are like, or exactly how they are distributed.
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Mystery cloud |
However, because dark matter "feels" gravity like ordinary visible matter, it is a fair bet that it clumps in the centre of our galaxy. So the team turned their attention to a distinctive pattern of gamma rays coming from the centre of the Milky Way (see graphic). The sharp signal, which has an energy of 511 kiloelectronvolts (keV), is believed to be due to the annihilation of electrons and positrons the antimatter equivalent of electrons.
Virtual standstill
But where did the electrons and positrons come from? People have speculated that the source is anything from the blast waves of a "hypernova" a super-powerful supernova to a neutron star or black hole. "But none of the explanations have seemed satisfactory," says Hooper.
(Excerpt) Read more at newscientist.com ...
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So, is the supposition that dark matter is somehow fundamentally different in this regard?
Not necessarily. It could be produced in matter-antimatter pairs, just like electrons and positrons. Consider that there are no primordial positrons, yet the detection of distant positrons is central to this article.
But it is all around us; we've known that for some time. We're just not detecting it. It could be that the density at the galactic center is just that much higher, or it could be that just the density of the dark matter antiparticles is much higher there.
I'm missing something here. How is the 'dark matter' creating positrons?
Minor quibble -- but how can you "know" about something you've not detected? You can theorize about it, sure -- but that's not "knowing."
Normally, "distant"
means "young" in astronomy,
but doesn't this case
involve looking toward
our galaxy's central core?
That's "distant," yes, but --
depending on how
galaxy's form -- probably
not "primordial"...
This statement is another example of the institutional racism found in the scientific community /sarc/
CPT invariance tells us that this process will also work in reverse, with the same coupling strength. We should be able to produce dark matter pairs at some calculable rate using an electron-positron collider. If the mass of the dark matter particles is around 100 MeV, we must have been producing them for quite some time: we have plenty of accelerators that can reach that energy.
If the dark matter particles don't couple to the electroweak force, the events may not distort the LEP neutrino-counting result (which measures the Z-resonance width), but they WILL throw off the "ASP" neutrino signature (single photon, missing transverse momentum).
I have performed this experiment myself, and only ever saw what was expected for three neutrino species. Is the lack of any anomalous measured signal (VERY well measured at such low masses) consistent with the coupling constant they require? Presumably that's mentioned in their paper. Until I see that, I suspend judgment.
I know nothing about this , thanks for the help!
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