We've all been taught that our bodies, the Earth, and in fact all matter in the universe is composed of
tiny building blocks called atoms. Now imagine if this weren't the case. This mind-bending concept is at the core of the
scientific research that one Florida State University professor -- and hundreds of his colleagues all over the world
-- are pursuing.
|
"Recent scientific breakthroughs have shown that most of the matter in the universe -- about four-fifths --
is not made up of atoms, but of something else, called 'dark matter,'" said Howard Baer, FSU's J.D. Kimel Professor of
Physics. "The evidence for dark matter is now overwhelming, and the required amount of dark matter is becoming precisely
known."
|
|
Baer explained that dark matter is believed to exist in the form of tiny particles that do not interact with light.
Because they don't emit or reflect electromagnetic radiation the way atomic, or baryonic, matter does, these dark matter
particles haven't been directly observed. However, scientists have long theorized their existence based on their
gravitational effects on visible matter throughout the universe.
Dark/luminous matter separation in the bullet cluster of galaxies. (Credit: Florida State University)
"For example, the gravitational effect of dark matter makes galaxies spin faster than one would otherwise expect," Baer
said. "Also, dark matter's gravitational field distorts the light of objects behind it -- creating the so-called 'lensing
effect.' By measuring these sorts of phenomena, we can tell that the universe is full of some sort of 'stuff' that we just
can't see."
Despite this progress, the exact identity of dark matter remains a mystery.
"Current constraints on dark matter properties show that the bulk of dark matter cannot be any of the known particles,"
Baer said.
|
"The existence of dark matter is at present one of the strongest pieces of evidence that the current theory of
fundamental particles and forces, summarized in the Standard Model of particle physics, is incomplete.
At the same time,
because dark matter is the dominant form of matter in the universe, an understanding of its properties is essential to
determine how galaxies formed and how the universe evolved.
|
|
Therefore, the discovery of dark matter is among the most
important goals in science today."
A theoretical physicist, Baer employs mathematical models and calculations, as opposed to experimental methods, in an
attempt to understand the basic properties of dark matter. To that end, he travels frequently to CERN, the world's
largest particle physics laboratory, located on the border between France and Switzerland.
At CERN, teams of physicists from all over the world are preparing for the start-up of what will be the world's most
powerful particle accelerator, the Large Hadron Collider (LHC), in 2008. With the LHC, they will conduct experiments
that seek to solve some of the fundamental mysteries of science, including the identity of dark matter. In addition to
searches at the LHC, the hunt for dark matter is progressing at experiments deep underground in Minnesota, under thick
Antarctic ice, and even in outer space.
Don't expect any conclusive data right away, Baer said.
"The identification of dark matter will most likely not be immediate, but will rather unfold gradually," he said.
Note: This story has been adapted from a news release issued by Florida State University.
Recent probes inside comets show it is
overwhelmingly likely that life began in space, according to a new paper by Cardiff University scientists.
"Scientists report the first maps of so-called planetary "danger zones." These are areas where
winds and radiation from super hot stars can strip other young, cooler stars like our sun of their
planet-forming materials. The results show that cooler stars are safe as long as they lie beyond
about 1.6 light-years..."
"It resembles a shining UFO or a wide-brimmed hat but... this isn't what it looks like. Its marked
central bulge and its lane of dark interstellar dust give the galaxy its unusual resemblance.
This is a very beautiful compiled image of the Sombrero Galaxy hovering in space. Three separate
observatory images of the galaxy, photographed by NASA's... (wonderful images!)
"
"NASA's New Horizons spacecraft will reach Pluto in 2015. In the meantime it has provided
new data on the planet Jupiter's atmosphere, rings, magnetosphere and its moons.
On its long way to Pluto and its moon Charon...
The spacecraft is working hard, testing its instruments before the primary goal - Pluto!"
Using the 3.6-m telescope an international team of astronomers from France, Switzerland, and Portugal
working in the European Southern Observatory (ESO) has discovered the most Earth-like planet outside our
Solar System. The planet's radius is estimated to be only 1.5 times
that of Earth. An unknown world seems to be covered with liquid oceans but may also be a rocky body
similar to Earth..."
"An Anglo-American team of astronomers have used the Advanced Camera for Surveys on the Hubble Space
Telescope (HST) to obtain the first direct optical
images of the aftermath of a recent titanic explosion that took place in a star system 5,000 light
years from Earth...."
"They are visible only at night, floating 50 miles above Earth around the polar regions. Their name is noctilucent ("night-shining" or "luminous at night") clouds. The clouds are wispy, thin and have grown brighter in recent years and they are definitely spreading. Their location is
an atmospheric layer known as "mesosphere" (middle sphere) extending between 50 and 85 km....
(wonderful images)..."
"NASA scientists believe they have found a way to predict the color of plants on planets in other solar systems.
Green, yellow or even red-dominant plants may live on extra-solar planets..."
