Saturday, July 21, 2012

Dark Matter Core Defies Explanation in Hubble Space Telescope Image

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Merging Galaxy Cluster Abell 520: Dark Matter in Blue


Dark Matter Core Defies Explanation in Hubble Space Telescope Image

NASA: March 2, 2012

It was the result no one wanted to believe. Astronomers observed what appeared to be a clump of dark matter left behind during a bizarre wreck between massive clusters of galaxies.

The dark matter collected into a "dark core" containing far fewer galaxies than would be expected if the dark matter and galaxies hung together. Most of the galaxies apparently have sailed far away from the collision. This result could present a challenge to basic theories of dark matter, which predict that galaxies should be anchored to the invisible substance, even during the shock of a collision.

The initial observations, made in 2007, were so unusual that astronomers shrugged them off as unreal, due to poor data. However, new results from NASA's Hubble Space Telescope confirm that dark matter and galaxies parted ways in the gigantic merging galaxy cluster called Abell 520, located 2.4 billion light-years away.

Now, astronomers are left with the challenge of trying to explain dark matter's seemingly oddball behavior in this cluster.

"This result is a puzzle," said astronomer James Jee of the University of California, Davis, leader of the Hubble study. "Dark matter is not behaving as predicted, and it's not obviously clear what is going on. Theories of galaxy formation and dark matter must explain what we are seeing."

A paper reporting the team's results has been accepted for publication in The Astrophysical Journal and is available online.

First detected about 80 years ago, dark matter is thought to be the gravitational "glue" that holds galaxies together. The mysterious invisible substance is not made of the same kind of matter that makes up stars, planets, and people. Astronomers know little about dark matter, yet it accounts for most of the universe's mass.

They have deduced dark matter's existence by observing its ghostly gravitational influence on normal matter. It's like hearing the music but not seeing the band.

One way to study dark matter is by analyzing smashups between galaxy clusters, the largest structures in the universe. When galaxy clusters collide, astronomers expect galaxies to tag along with the dark matter, like a dog on a leash. Clouds of intergalactic gas, however, plow into one another, slow down, and lag behind the impact.

That theory was supported by visible-light and X-ray observations of a colossal collision between two galaxy clusters called the Bullet Cluster. The galactic grouping has become a textbook example of how dark matter should behave.

But studies of Abell 520 showed that dark matter's behavior may not be so simple. The original observations found that the system's core was rich in dark matter and hot gas but contained no luminous galaxies, which normally would be seen in the same location as the dark matter. NASA's Chandra X-ray Observatory detected the hot gas. Astronomers used the Canada-France-Hawaii and Subaru telescopes atop Mauna Kea to infer the location of dark matter by measuring how the mysterious substance bends light from more distant background galaxies, an effect called gravitational lensing.

The astronomers then turned Hubble's Wide Field Planetary Camera 2 to help bail them out of this cosmic conundrum. Instead, to their chagrin, the Hubble observations helped confirm the earlier findings. Astronomers used Hubble to map the dark matter in the cluster through the gravitational lensing technique.

"Observations like those of Abell 520 are humbling in the sense that in spite of all the leaps and bounds in our understanding, every now and then, we are stopped cold," explained Arif Babul of the University of Victoria in British Columbia, the team's senior theorist.

Is Abell 520 an oddball, or is the prevailing picture of dark matter flawed? Jee thinks it's too soon to tell.

"We know of maybe six examples of high-speed galaxy cluster collisions where the dark matter has been mapped," Jee said. "But the Bullet Cluster and Abell 520 are the two that show the clearest evidence of recent mergers, and they are inconsistent with each other. No single theory explains the different behavior of dark matter in those two collisions. We need more examples."

The team has proposed a half-dozen explanations for the findings, but each is unsettling for astronomers. "It's pick your poison," said team member Andisheh Mahdavi of San Francisco State University in California, who led the original Abell 520 observations in 2007. One possible explanation for the discrepancy is that Abell 520 was a more complicated interaction than the Bullet Cluster encounter. Abell 520 may have formed from a collision between three galaxy clusters, instead of just two colliding systems in the case of the Bullet Cluster.

Another scenario is that some dark matter may be what astronomers call "sticky." Like two snowballs smashing together, normal matter slams into each other during a collision and slows down. But dark matter blobs are thought to pass through each other during an encounter without slowing down. This scenario proposes that some dark matter interacts with itself and stays behind when galaxy clusters collide.

A third possibility is that the core contained many galaxies, but they were too dim to be seen, even by Hubble. Those galaxies would have to have formed dramatically fewer stars than other normal galaxies. Armed with the Hubble data, the group hopes to create a computer simulation to try to reconstruct the collision, hoping that it yields some answers to dark matter's weird behavior.


Merging Galaxy Cluster Abell 520: 1 of 6 Galaxy Collisions Where Dark Matter Has Been Mapped


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1 comment:

  1. Confirm Dark Matter?

    http://news.sciencemag.org/sciencenow/2013/04/two-billion-dollar-cosmic-ray-de.html?ref=em

    With utmost sincere respect, dark matter and dark energy may be found only in some human minds. Energy is mass in motion; as the galaxy clusters move since inflation their mass decreases as their travel distance increases. Thus ALL mass and energy are accounted for.

    Dark energy and matter YOK. They simply do not exist.
    All The Mass Of The Universe Formed At The Pre-Big-Bang Singularity

    The universe is a two-poles entity, an all-mass and an all-energy poles.

    The elementary particle of the universe is the graviton. The gravitons are compacted into the universal inert singularity mass only for the smallest fraction of a second, when all the gravitons of the universe are compacted together, with zero distance between all of them. This state is mandated by their small size and by their hence weak force.

    The big bang is the shattering of the short-lived singularity mass into fragments that later became galactic clusters. This is inflation. The shattering is the start of movement of the shatters i.e. the start of reconversion of mass into energy, which is mass in motion. This reconversion proceeds at a constant rate since the big bang since the resolution of gravitons, their release from their shatters-clusters, proceeds at constant rate due to their weak specific force due to their small size.

    Graviton's Energy-Mass Dualism:

    Gravity Is The Monotheism Of The Universe
    Everything in the dictionary and in the universe - nouns and verbs objects and processes - originate and derive from the energy-mass dualism, from the ongoing constant rate conversion of mass to energy, from the ongoing resolution-release of inert gravitons, mass, leaving the clusters of the fractured seed of the universe, singularity, and becoming energy, mass in motion.

    The Graviton’s energy-mass dualism derives from its gravity, self-attraction, and its compactness.

    Gravity:
    the propensity of the gravitons – the elementary particles of the mass of the universe - to return to their singularity state of zero motion, of compacted zero inter-particle distance.

    Compactness:
    the default particle’s size and shape that enable zero inter-particle distance at singularity.

    This, commonsensically, therefore possibly scientifically, is the matrix of the universe.

    Dov Henis (comments from 22nd century)
    http://universe-life.com/2012/02/03/universe-energy-mass-life-compilation/
    Energy-Mass Poles Of The Universe
    http://universe-life.com/2012/11/14/701/

    PS:
    Life is the obvious manifestation of energy-mass dualism. The sun’s energy, i.e. fast-moving mass particles, convert into slow-moving temporary mass formats…DH

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