Google - AFP, Jean-Louis Santini (AFP), 18 february 2013
 |
Undated
composite image courtesy of NASA shows distribution of dark matter,
galaxies,
and hot gas in a galaxy cluster (NASA/AFP)
|
BOSTON,
Massachusetts — For decades, the strange substance called dark matter has
teased physicists, challenging conventional notions of the cosmos.
Today,
though, scientists believe that with the help of multi-billion-dollar tools,
they are closer than ever to piercing the mystery -- and the first clues may be
unveiled just weeks from now.
"We
are so excited because we believe we are on the threshold of a major
discovery," said Michael Turner, director of the Kavli Institute for
Cosmological Physics at the University of Chicago, at an annual conference of
the American Association for the Advancement of Science (AAAS).
Dark
matter throws down the gauntlet to the so-called Standard Model of physics.
Elegant
and useful for identifying the stable of particles and forces that regulate our
daily life, the Standard Model only tells part of the cosmic story.
For one
thing, it does not explain gravity, although we know how to measure gravity and
exploit it for our needs.
And the
Standard Model has been found to account for only around four or five percent
of the stuff in the Universe.
The rest
is dark matter, making up 23 percent, and dark energy, an enigmatic force that
appears to drive the expansion of the Universe, which accounts for around 72 or
73 percent.
"On
the cosmology side we now understand that this mysterious dark matter holds
together our galaxy and the rest of the Universe," said Turner.
"And
the tantalizing thing on the cosmology side is that we have an airtight case
that the dark matter is made of something new... there is no particle in the
Standard Model that can account for dark matter."
The dark
matter theory was born 80 years ago when Swiss astrophysicist Fritz Zwicky
discovered that there was not enough mass in observable stars or galaxies to
allow the force of gravity to hold them together.
According
to some theorists, dark matter is fleetingly formed by exotic particles called
WIMPs (Weakly Interacting Massive Particles) that, as their name implies, have
only weak interactions with the visible matter identified under the Standard
Model.
But,
again, this could only be part of the picture.
"The
real question is why dark matter has six times the energy that is in ordinary
matter," said Lisa Randall of Harvard University.
"It
could be 10 trillions times bigger... This is an intriguing sign that there is
maybe some other interaction we can detect."
High-powered
instruments track cosmic particles
To track
these phantom particles, physicists rely on several methods and tools.
One is
the Alpha Magnetic Spectrometer (AMS) aboard the International Space Station
(ISS), which captures gamma rays coming from collisions of dark matter
particles.
The
first results will be published in two to three weeks, according to Samuel
Ting, a Nobel laureate and professor at the Massachusetts Institute of
Technology (MIT) who is the mastermind of the two-billion-dollar project.
Ting
declined to give details, only suggesting that these highly anticipated results
would give humans a better idea about the nature of dark matter.
Another
tool used by the scientists is the South Pole Neutrino Observatory, which
tracks subatomic particles known as neutrinos, which, according to physicists,
are created when dark matter passes through the Sun and interacts with protons.
Another
big weapon is the Large Hadron Collider (LHC) near Geneva, the biggest particle
smasher in the world.
Its
power, they insist, could allow them to break-up electrons, quarks or neutrinos
to uncover dark matter.
Last
July, LHC physicists announced they had discovered a particle believed to be
the Higgs boson, which confers mass. The Higgs was the key missing piece in the
Standard Model.
"The
dark matter particles are very heavy. It is one of the reasons we have made the
LHC, not only to look for the Higgs boson," said Maria Spiropulu,
professor of physics at the California Institute of Technology (Caltech).
"The Interdimensional Universe" – Nov 15, 2003 (Kryon channeled by Lee Carroll)
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"Recalibration of Knowledge" – Jan 14, 2012 (Kryon channelled by Lee Carroll) - (Subjects: Channelling, God-Creator, Benevolent Design, New Energy, Shift of Human Consciousness, (Old) Souls, Reincarnation, Gaia, Old Energies (Africa,Terrorists, Cuba, Iran, North Korea, Venezuela ... ), Weather, Rejuvenation, Akash, Nicolas Tesla / Einstein, Cold Fusion, Magnetics, Lemuria, Atomic Structure (Electrons, Particles, Polarity, Self Balancing, Magnetism, Higgs Boson), Entanglement, "Life is necessary for a Universe to exist and not the other way around", DNA, Humans (Baby getting ready, First Breath, Stem Cells, Embryonic Stem Cells, Rejuvenation), Global Unity, ... etc.) - (Text Version)
"The Interdimensional Universe" – Nov 15, 2003 (Kryon channeled by Lee Carroll)
"...
There's more. I just took you on a trip to the center of a simple atom and told
you that there's far more there for you to see than how it appears in 4D. Let
me give you a prediction: Scientists will begin to understand this on a grander
scale as they continue to look at the Universe. There's something missing
within the energy measurement of "everything that should be there"
for the motion and scope to exist as you see it. So what's missing? Why can't
you see it? Already scientists are postulating the possibility of dark matter.
This would be matter you can't see, but which must exist to enable the energy
equation to be balanced. No one has said anything about interdimensionality
yet, but they will. They have to, for the elegance of the math eventually will
show them very clearly that perhaps what's going on in the Universe is
interdimensional in its scope. What's missing in their energy computations is
very real interdimensional matter.
Who said
that the cosmic lattice was linear? Who said that the energy that you can't see
follows the same paradigm as what you can see? Oh, before this channel is over,
I'm going to give you some puzzles. So here's another prediction: Science will
begin to look for missing dimensions to explain missing energy! And it's about
time. And that's the way of it. So it's time to reveal the shape of the
Universe, and the push/pull action within dimensional shifts that cause your
Universe to do what it does, and show you what it does. Many of the things that
you continually observe are hints of it, but they're misinterpreted.
In four
dimensions, your physics makes a lot of sense. When you step out of 4D and
become interdimensional, however, all those logical rules of physics change. We
even told you the last time we were here that when you get small enough, the
laws of basic physics changes, too. It also changes when you get very large. It
also changes with time frames. Stay with me here, for this will be simplified
in a moment. ...."
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