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Issue no. 38, 2007
Published: Nov 30, 2007 |
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 Google pushes 'green' power initiative | | Carbon dioxide could be injected into earth: study | | Slowing light heralds ultra-fast computers | | Remote-controlled pill | | Laser-powered motor turns light into motion | | Fabric displays |
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| Google pushes 'green' power initiative |
Google is expanding into alternative energy in its most ambitious effort
yet to ease the environmental strain caused by the company's voracious
appetite for power to run its massive computing centers. Google hopes to
harvest cleaner-burning electricity to meet its own needs and sell power
to other users.
As part of the project dubbed 'Renewable Energy Cheaper Than Coal',
Google will pour hundreds of millions of dollars into a quest to lower
the cost of producing electricity from renewable energy sources such as
wind and the sun. If Google realises its goal, the cost of solar power
should fall by 25 to 50%.
Google intends to spend at least USD 20m next year to finance renewable
energy research and hire more experts in the field. At least 20 to 30
new employees will participate in the project next year, Page said,
though he hopes the number will be larger than that. |
| CNN / AP
Nov 28, 2007 |
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| Carbon dioxide could be injected into earth: study |
Researchers at the University of Leeds have a potential solution to the
world's climate change problem: pump all that harmful carbon dioxide
being produced down into the earth.
A university study in the December issue of the periodical Geology
showed porous sandstone that has been drained of oil by energy companies
could act as a safe reservoir for excess carbon dioxide. The sandstone
reacts with injected fluids more quickly than had previously been
predicted, the researchers said, which means it can capture the CO2 and
prevent it from leaking back to the surface.
In studying the Miller oilfield in the North Sea, the researchers
examined the seawater that BP PLC had been pumping over a seven-year
period into reservoirs to speed the flow of oil. They found that the
extracted seawater, when compared to the water that was there before,
was rich in silicates, which had dissolved into the injection in less
than a year. That is the type of reaction that would be needed to make
carbon dioxide stable in the rock, the researchers said.
The research also gave a clear indication that CO2 planted deep
underground could react and become quickly assimilated with ordinary
rocks, they added. The study suggests a possible long-term solution to
safely storing CO2. |
| CBC News
Nov 26, 2007 |
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| Slowing light heralds ultra-fast computers |
Scientists at the University of Surrey in Britain say they are able to
slow and then stop a squirt of light in a key step toward the future of
ultra-fast computing. The technique, called 'trapped rainbow', would
help optical data storage, with light replacing electrons to store
information.
Controlling light would also help engineers control major nodes where
billions of optical data 'packets' arrive at the same time. By slowing
some packets to let others through, rather like a traffic congestion
scheme, the flow of data can be boosted. The research is based on the
so-called 'negative refractive index' of metamaterials.
The researchers created a prism 'sandwich' - a tapered layer of glass,
surrounded by two layers of negative refractive index metamaterials. A
packet of white light injected into the glass from the wide end of the
prism slows as it travels down the taper and eventually comes to a
standstill. The description of it as a 'trapped rainbow' derives from
the fact that the constituent frequencies of white light are the colours
of the rainbow - red, orange, yellow, green, blue, indigo, and violet.
Each individual frequency is stopped at a different point down the
taper, until finally the light is stopped. |
| Middle East Times / Nature
Nov 27, 2007 |
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| Remote-controlled pill |
Pharmacists use various mechanisms to control the release of drugs from
a pill. For example, the pill may have a coating that is designed to be
dissolved in a particular part of the digestive tract or after a certain
amount of time.
But this does not always work since the rate of passage through the body
can vary, and some individuals have higher levels of digestive enzymes
than others. So the electronics company Philips has come up with a
remote-controlled pill with a cavity for carrying a drug which can be
opened by a remote signal.
The passage of the pill can be followed by MRI or ultrasound and the
drug dispensed with an electronic trigger at the appropriate location.
The drug can also be released according to other external factors. For
example, if atmospheric pollen reaches a certain level or the patient's
blood pressure hits a predetermined number.
Philips hopes the pills can be made cheaply enough to be disposable, so
they need not be collected and recycled after use. |
| New Scientist
Nov 19, 2007 |
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| Laser-powered motor turns light into motion |
A laser-driven motor has been demonstrated by Japanese researchers at
the International Christian University in Tokyo, Japan. Future versions
could provide pinpoint mechanical control in places that electric motors
cannot normally go, they say.
The motor consists of a copper disc with a hole at its centre. Green
laser light - with a wavelength of 532 nanometres - causes the metal to
get hot and expand, an effect that produces tiny fast-moving elastic
waves on its surface. These waves move in a circular motion around the
centre of the ring. When the ring touches another surface, this motion
causes it to move, and when the disc is mounted on a spindle, the
movement becomes rotational.
Laser tweezers are only about 0.000000001% efficient. It could, however,
be useful in environments with strong magnetic fields, since unlike
conventional electric motors, the laser motor is unaffected by strong
electromagnetism. This could include inside MRI scanners or other
scientific instruments. The laser can also be controlled very
accurately, because laser beams can be fired in extremely short pulses. |
| New Scientist / SPIE
Nov 27, 2007 |
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| Fabric displays |
Wearable displays have long interested electronics company Philips. They
could be used to display useful information or as a fashion statement.
But one problem is that the liquid crystals normally used in flexible
displays usually exist in a glass-like state, which ultimately limits
the extent to which they can be bent.
Now Philips says it may be possible to build much more flexible liquid
crystal displays by imprinting a cell-like structure onto an ordinary
fabric using a stretchy elastomeric material such as silicone to create
each pixel.
The pixels can be filled with a flexible electro-optical material such
as a non-glassy liquid crystal, or a plasma. Conducting fibres within
the material then make each pixel addressable. The result is a display
that has the same material properties as a fabric. |
| New Scientist
Nov 26, 2007 |
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