Dark Matter Core Defies Explanation

In summary, the article discusses the claim that the Bullet Cluster provides the best evidence to date against the existence of dark matter. The article also discusses another cluster, MACSJ0025, which has recently been claimed to provide evidence for the "Mirror Matter" dark matter hypothesis.
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  • #2
I agree this is interesting. I wonder if there is another way to confirm what we think we are seeing?

I understand that DM was postulated to explain the distribution of rotation velocities of galaxies, so if these Galaxies had been stripped of some of their DM would it not also show up in the galaxy rotational distributions?
 
  • #3
Tanelorn said:
I agree this is interesting. I wonder if there is another way to confirm what we think we are seeing?

I understand that DM was postulated to explain the distribution of rotation velocities of galaxies, so if these Galaxies had been stripped of some of their DM would it not also show up in the galaxy rotational distributions?

You would think so. And confirming the observation would be great. It's a puzzler!
 
  • #4
Well, the galaxies still do interact more than the dark matter, so it isn't completely absurd. It is interesting, and does speak to an interesting past history for this particular cluster. But the vast majority of clusters fall into the expected pattern, with dark matter and galaxies well-aligned.
 
  • #5
Here is an excerpt from NASA:

"The blend of blue and green in the center of the image reveals that a clump of dark matter resides near most of the hot gas, where very few galaxies are found. This finding confirms previous observations of a dark-matter core in the cluster. The result could present a challenge to basic theories of dark matter, which predict that galaxies should be anchored to dark matter, even during the shock of a collision."

http://www.nasa.gov/multimedia/imagegallery/image_feature_2189.html
 
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  • #6
Lensman said:
This article appeared March 2nd on Science Daily. Quite interesting. Any comments?

http://www.sciencedaily.com/releases/2012/03/120302101413.htm
The Bullet Cluster is claimed to provide the best evidence to date for the existence of dark matter (see for instance wikipedia entry). Is this new observation the best evidence to date against the existence of dark matter, then?
 
  • #7
TrickyDicky said:
The Bullet Cluster is claimed to provide the best evidence to date for the existence of dark matter (see for instance wikipedia entry). Is this new observation the best evidence to date against the existence of dark matter, then?
Not really. As I said, the vast, vast majority of clusters are very easy to understand in terms of dark matter. The bullet cluster is also easy to understand largely because it's easy to see what happened to separate the cluster gas from the dark matter. That a few clusters are difficult to understand in terms of dark matter is expected.

My bet is that if a group of scientists are really interested in this, they'll find a reasonable solution within a few years. If they haven't already (I haven't looked, sorry).
 
  • #8
Chalnoth said:
Not really. As I said, the vast, vast majority of clusters are very easy to understand in terms of dark matter. The bullet cluster is also easy to understand largely because it's easy to see what happened to separate the cluster gas from the dark matter. That a few clusters are difficult to understand in terms of dark matter is expected.
Hmm, we are talking about clusters colliding here, do you know any good example besides the Bullet cluster and more recently MACSJ0025?
 
  • #10
Maybe this is evidence for the "Mirror Matter" dark matter hypothesis.

http://en.wikipedia.org/wiki/Mirror_matter

Mirror matter is hypothesized to be just like ordinary matter but is "right-handed" rather than "left-handed".

Perhaps most mirror matter is in the form of mirror Hydrogen and mirror Helium which forms clouds around galaxies whereas some mirror matter might be in the form of heavier mirror elements that can clump together.
 
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  • #12
johne1618 said:
Maybe this is evidence for the "Mirror Matter" dark matter hypothesis.

http://en.wikipedia.org/wiki/Mirror_matter

Mirror matter is hypothesized to be just like ordinary matter but is "right-handed" rather than "left-handed".

Perhaps most mirror matter is in the form of mirror Hydrogen and mirror Helium which forms clouds around galaxies whereas some mirror matter might be in the form of heavier mirror elements that clump together.
I don't quite see how, but I should mention that mirror matter is basically just one of many dark matter hypotheses. Mirror matter must be pretty different from normal matter in order to explain our observations, as dark matter interacts very weakly both with itself and with normal matter.
 
  • #13
Chalnoth said:
I don't quite see how, but I should mention that mirror matter is basically just one of many dark matter hypotheses. Mirror matter must be pretty different from normal matter in order to explain our observations, as dark matter interacts very weakly both with itself and with normal matter.

If mirror matter exists and is mostly in the form of cold mirror hydrogen/helium surrounding galaxies then I suppose it would not interact strongly with itself if those galaxies collide.

Is that correct?
 
  • #14
johne1618 said:
If mirror matter exists and is mostly in the form of cold mirror hydrogen/helium surrounding galaxies then I suppose it would not interact strongly with itself if those galaxies collide.

Is that correct?
Our best constraints on the interaction of dark matter with itself and with normal matter comes from the early universe, where all of the normal matter was an ionized plasma. At that time, the dark matter still didn't interact much at all with itself or with normal matter, so it can't simply be made of the same stuff as normal matter is.
 
  • #15
Chalnoth said:
Our best constraints on the interaction of dark matter with itself and with normal matter comes from the early universe, where all of the normal matter was an ionized plasma. At that time, the dark matter still didn't interact much at all with itself or with normal matter, so it can't simply be made of the same stuff as normal matter is.

Ok - so if dark matter was mirror matter then in the early Universe it should have been a mirror ionized plasma in the same way that normal matter was an ionized plasma. Thus even if it didn't interact with normal matter at all it should still have interacted strongly with itself. We don't see evidence of that so dark matter is probably not mirror matter.

Thanks for the clarification.
 
  • #16
johne1618 said:
Ok - so if dark matter was mirror matter then in the early Universe it should have been a mirror ionized plasma in the same way that normal matter was an ionized plasma. Thus even if it didn't interact with normal matter at all it should still have interacted strongly with itself. We don't see evidence of that so dark matter is probably not mirror matter.

Thanks for the clarification.
Well, at least not precisely. It basically has to interact with itself considerably more weakly than normal matter interacts with itself. So it can't be an exact mirror.

What might also help is if the physics causes recombination (when the universe first turns from a plasma into a gas) to occur sooner with mirror matter than with normal matter. Though I think it would still have to interact more weakly for us to not see the interactions.
 
  • #17
I don't think anyone has given the link to the journal article yet
http://arxiv.org/abs/1202.6368
A Study of the Dark Core in A520 with Hubble Space Telescope: The Mystery Deepens
M. J. Jee, A. Mahdavi, H. Hoekstra, A. Babul, J. J. Dalcanton, P. Carroll, P. Capak
(Submitted on 28 Feb 2012)
We present a Hubble Space Telescope/Wide Field Planetary Camera 2 weak-lensing study of A520, where a previous analysis of ground-based data suggested the presence of a dark mass concentration. We map the complex mass structure in much greater detail leveraging more than a factor of three increase in the number density of source galaxies available for lensing analysis. The "dark core" that is coincident with the X-ray gas peak, but not with any stellar luminosity peak is now detected with more than 10 sigma significance. The ~1.5 Mpc filamentary structure elongated in the NE-SW direction is also clearly visible. Taken at face value, the comparison among the centroids of dark matter, intracluster medium, and galaxy luminosity is at odds with what has been observed in other merging clusters with a similar geometric configuration. To date, the most remarkable counter-example might be the Bullet Cluster, which shows a distinct bow-shock feature as in A520, but no significant weak-lensing mass concentration around the X-ray gas. With the most up-to-date data, we consider several possible explanations that might lead to the detection of this peculiar feature in A520. However, we conclude that none of these scenarios can be singled out yet as the definite explanation for this puzzle.
Published in Astrophysical Journal

The alternative scenarios being considered to explain the dark core are described on page 7.

Figures 4 and 5 show contour density maps and are graphically clear and detailed. Better than what appeared in the news article. It's worth visiting the professional journal article if only to get a look at these contour maps.
 
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  • #19
TrickyDicky said:
The Bullet Cluster is claimed to provide the best evidence to date for the existence of dark matter (see for instance wikipedia entry). Is this new observation the best evidence to date against the existence of dark matter, then?

Nope, time ago was shown that dark matter fails for the bullet cluster

Moreover, the past year solid evidence against dark matter was already provided

http://www.bbc.co.uk/news/science-environment-12571965

http://physics.aps.org/articles/v4/23
 
  • #20
juanrga said:
Nothing new, Dark Matter is the Vulcan planet of 21st century.

amusing quip, but I don't think it's right. Density contour maps of DM clouds in many locations (e.g. around clusters of galaxies) have been made. The maps are interesting, show differences, show different things happening, and require explanation.

the hypothetical planet "Vulcan" was not something observed to be explained,
it was a KLUDGE explanation of precession in Mercury's orbit.
http://en.wikipedia.org/wiki/Vulcan_(hypothetical_planet)
an unexplained peculiarity in Mercury's orbit was established as early as 1860, I think.

DM is also an essential feature of simulations of filamentary structure formation in early universe---and the simulations yield realistic-looking results.

DM is just too economical a way to explain this bunch of different things going on at widely different scales---galaxy, clusters of galaxies, filamentary structure.
The nature of DM is a major puzzle. It's not a one-time kludge like the hypothetical planet Vulcan.

Maybe you were kidding. Nice epigram

BTW I also think it's pretty clear that our present law of gravity, GR, is going to be MODIFIED. It is deficient in some recognized ways and people are working on that. So if you are trying to say GR has to be modified, you are "preaching to the converted". That, I think, is a different problem. Modifying, say in the course of developing a quantum theory of geometry and matter, is unlikely to supplant DM in all its different explanatory roles.
 
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  • #21
marcus said:
amusing quip, but I don't think it's right. Density contour maps of DM clouds in many locations (e.g. around clusters of galaxies) have been made. The maps are interesting, show differences, show different things happening, and require explanation.

the hypothetical planet "Vulcan" was not something observed to be explained,
it was a KLUDGE explanation of precession in Mercury's orbit.
http://en.wikipedia.org/wiki/Vulcan_(hypothetical_planet)
an unexplained peculiarity in Mercury's orbit was established as early as 1860, I think.

DM is also an essential feature of simulations of filamentary structure formation in early universe---and the simulations yield realistic-looking results.

DM is just too economical a way to explain this bunch of different things going on at widely different scales---galaxy, clusters of galaxies, filamentary structure.
The nature of DM is a major puzzle. It's not a one-time kludge like the hypothetical planet Vulcan.

Maybe you were kidding. Nice epigram

BTW I also think it's pretty clear that our present law of gravity, GR, is going to be MODIFIED. It is deficient in some recognized ways and people are working on that. So if you are trying to say GR has to be modified, you are "preaching to the converted". That, I think, is a different problem. Modifying, say in the course of developing a quantum theory of geometry and matter, is unlikely to supplant DM in all its different explanatory roles.

Vulcan planet was a hypothetical matter that many theorists assumed that would exist in order to explain Mercury orbit using Newtonian gravity. Using this hypothetical planet plus Newtonian gravity, the theorists of then were able to explain Mercury orbit. The next step was, evidently to find that planet in an observation and, unsurprisingly, several astronomers reported that they had found it! Today, everyone knows that Vulcan does not exist [*] and that the explanation of Mercury orbit is due to modification of gravity near Sun.

The history of physics repeats with DM.

DM is a hypothetical, never seen, distribution of matter postulated in order to continue using general relativity. Your "density contour maps of DM" are theoretically obtained as the difference between the prediction done by general relativity and the real observation, somewhat as the orbit and position of Vulcan were theoretically inferred from comparing the prediction of Mercury orbit done by Newtonian gravity and the observed orbit.

Sometimes as 'ancient' astronomers claimed observations of Vulcan then, some astronomers make claims about the first observation of dark matter these days, but all the "first observation of" in the literature were fake and all the direct searches of dark matter have miserably failed (Xenon10, Fermi...). This is not a surprise because DM does not exist.

I want to emphasize that continuous experimental failure of DM models (at galactic scale, clusters, cosmology...) and continuous null results in the dozens of experiments devoted to the search of dark matter would not be an impediment for true dark matter believers, who continue to believe that DM is real and will be found... Recall that Vulcan believers continued to search Vulcan even after was such hypothesis was discredited.

As Baum & Sheehan note in a recent book, the confidence on the universal validity of Newtonian gravitational theory was so high that to
the people of the late 19th century, Vulcan was real. It was a planet. It had theoretical credibility and had actually been seen. Even textbooks accorded it a chapter.

The rest of us is already searching modifications of general relativity that explain the observations without any need for the non-existent DM.

[*] Except in Star Trek episodes, but is not near Sun :rolleyes:
 
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  • #22
juanrga said:
I want to emphasize that continuous experimental failure of DM models (at galactic scale, clusters, cosmology...) and continuous null results in the dozens of experiments devoted to the search of dark matter would not be an impediment for true dark matter believers, who continue to believe that DM is real and will be found... Recall that Vulcan believers continued to search Vulcan even after was such hypothesis was discredited.
Can you elaborate on the "continuous experimental failure of DM models"?
 
  • #23
I was half expecting the MOND shoe to drop. That is the main 'contender' to supplant dark matter, although it fails even more spectacularly than DM.
 
  • #24
Chronos said:
I was half expecting the MOND shoe to drop. That is the main 'contender' to supplant dark matter, although it fails even more spectacularly than DM.

I see. I read whatever article the banned poster above linked in another thread, but it's hard to tell what is correct and what isn't. I believe it claimed that current dark matter theory fails miserably itself.
 
  • #25
Drakkith said:
I believe it claimed that current dark matter theory fails miserably itself.
...which is just plain incorrect. Cold dark matter fits all observations to date, and fits extremely well, with no special tuning required. The only objections to dark matter that are even close to valid are philosophical objections: some just don't like the idea of proposing a new type of matter.
 
  • #26
And the GODs have created a new kind of matter Amen!
 
  • #27
Whitewolf4869 said:
And the GODs have created a new kind of matter Amen!

And then the admins banned thee...
 
  • #28
Mr. Whitewolf4869 (overstriked), Here on Physics Forums members exchange information so as to learn. Sarcasm and religious posts do not serve to promote learning.

Do you have some information about Dark Matter? If yes, then please post it for all of our members. Thank you, Bobbywhy
 
  • #29
Mr. Whitewolf4869 (overstriked), Here are four statements excerpted from NASA about dark matter, just for your infomation. All contrary evidence is welcome!

"We are much more certain what dark matter is not than we are what it is.

First, it is dark, meaning that it is not in the form of stars and planets that we see. Observations show that there is far too little visible matter in the Universe to make up the 25% required by the observations.

Second, it is not in the form of dark clouds of normal matter, matter made up of particles called baryons. We know this because we would be able to detect baryonic clouds by their absorption of radiation passing through them.

Third, dark matter is not antimatter, because we do not see the unique gamma rays that are produced when antimatter annihilates with matter.

Finally, we can rule out large galaxy-sized black holes on the basis of how many gravitational lenses we see. High concentrations of matter bend light passing near them from objects further away, but we do not see enough lensing events to suggest that such objects to make up the required 25% dark matter contribution."

http://science.nasa.gov/astrophysics/focus-areas/what-is-dark-energy/
 

1. What is dark matter and why is its core defying explanation?

Dark matter is an invisible and mysterious substance that makes up about 27% of the universe. Its core is defying explanation because it behaves differently than normal matter and emits no light, making it difficult to study and understand.

2. How do scientists study dark matter and its core?

Scientists study dark matter through indirect observations, such as its gravitational effects on visible matter, and through computer simulations. They also use specialized instruments, such as the Large Hadron Collider, to try and detect dark matter particles directly.

3. What are some current theories about the nature of dark matter?

Some theories suggest that dark matter is made up of exotic particles, such as WIMPs (Weakly Interacting Massive Particles) or axions. Other theories propose modifications to the laws of gravity to explain the observed effects of dark matter.

4. Why is the core of dark matter particularly puzzling to scientists?

The core of dark matter is puzzling because it seems to be denser than expected, with a higher concentration of dark matter particles. This contradicts current theories and simulations, leading to a lack of understanding about the properties and behavior of dark matter.

5. What are the implications of not being able to explain the core of dark matter?

The inability to explain the core of dark matter has significant implications for our understanding of the universe and its evolution. It also presents challenges for future research and the development of new theories to explain the mysteries of dark matter.

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