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Neurons Image: alz.org
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Issue no. 9, 2012
Published: Mar 23, 2012 |
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 Study finds electrotherapy dampens brain connections | | Fusion simulations show high-gain output | | How to hide from a magnetic field | | Robot jellyfish sucks up power from the water | | Superfast laser camera peers around corners | | The science of judo | | Google imagines environment-aware mobile adverts | | Vibrating tattoo alerts patent filed by Nokia in US | | Flying Dutchman is lying Dutchman |
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| Study finds electrotherapy dampens brain connections |
Scientists have discovered how electroconvulsive or electric shock
therapy - a controversial but effective treatment - acts on the brains
of severely depressed people and say the finding could help improve
diagnosis and treatment of mental illness.
Electroconvulsive therapy (ECT) involves first anaesthetizing the
patient and then electrically inducing a seizure. It has a controversial
reputation but is a potent and effective treatment for patients with
mood disorders like severe depression. Yet despite it being used
successfully in clinical practice for more than 70 years, scientists
have until now not been entirely clear how or why it works.
In recent years, experts have developed a new theory on how depression
affects the brain that suggests there is a 'hyperconnection' between the
areas of the brain involved in emotional processing and mood change and
the parts of the brain involved in thinking and concentrating.
Now a team from Aberdeen University in Scotland has shown for the first
time that ECT affects the way different parts of the brain involved in
depression communicate with each other. They found ECT appears to turn
down overactive connections between parts of the brain that control mood
and parts that control thinking and concentrating. This stops the
overwhelming impact that depression has on patients' ability to enjoy
life and carry out day-to-day activities, they said.
The researchers said they now hope to continue monitoring the patients
to see if the depression and hyperconnectivity returns. They also want
to compare their ECT findings with the effects of other therapies used
to treat depression such as psychotherapy and anti-depressants. |
| Reuters / Proceedings of the National Academy of Sciences (PNAS)
Mar 20, 2012 |
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| Fusion simulations show high-gain output |
Using simulations, scientists believe they may have found a way to make
nuclear fusion a practical proposition. Experts at Sandia National
Laboratories say their results show that high-gain nuclear fusion could
be achieved in a preheated cylindrical container immersed in strong
magnetic fields.
The simulations show that the output of energy could be many times
greater than the energy fed into the container's liner. Indeed, the
method appears to be 50 times more efficient than using X-rays -
currently Sandia's preferred method - to drive implosions of targeted
materials and create fusion conditions. Such fusion, says the team,
could eventually produce reliable electricity from seawater - the most
plentiful material on Earth.
In the simulations, the output demonstrated was 100 times that of a 60
million amperes (MA) input current. And output rose steeply as the
current increased: 1,000 times input was achieved from an incoming pulse
of 70 MA. Since Sandia's Z machine can only reach 26 MA, the researchers
say they would be happy with scientific break-even - which has never
before been achieved - as a proof of principle.
The magnetic inertial fusion (MIF) technique heats the fusion fuel,
deuterium-tritium, by compression as in normal inertial fusion. However,
it uses a magnetic field to suppress heat loss during implosion, with
the magnetic field preventing charged particles like electrons and alpha
particles from draining energy from the reaction. |
| TG Daily
Mar 21, 2012 |
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| How to hide from a magnetic field |
Researchers in Europe have built a magnetic cloak that, in theory, is
reasonably practical to manufacture. An object concealed by the new
cloak is magnetically undetectable, while the cloak itself is made from
materials available in many physics labs the world over.
In 2011 researchers at Universitat Autònoma de Barcelona, Spain,
developed a theory for a type of magnetic cloak they called an
'antimagnet' that would have two crucial properties. One is that any
magnetic field created within the cloak would not leak outside the
cloaked region and the other is that the cloak and the cloaked region
would be undetectable by an external magnetic field; that is, the field
would not be distorted by the cloak. Now, the team, together with
colleagues from the Slovak Academy of Sciences, have designed and
demonstrated a modified version of the cloak proposed last year.
The new cloak is a simple bi-layer cloak made up of two common materials
- an inner superconducting layer made up of a high-temperature
superconducting tape and an outer ferromagnetic layer composed of a few
turns of a thick FeNiCr commercial alloy sheet. The superconducting
layer on its own repels the magnetic field, while a ferromagnetic layer
on its own attracts the magnetic field lines; so both independent layers
distort the field. The cloak is the accurate combination of the two
layers, determined by a specific radius, which adjusts for the
permittivity such that there is no external field distortion at all.
Because the cloak is capable of running under relatively strong magnetic
fields and relatively warm liquid-nitrogen temperatures, and as it is
made from commercially available materials, it could be readily put to
practical use, the researchers say. |
| PhysicsWorld / Science
Mar 22, 2012 |
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| Robot jellyfish sucks up power from the water |
Robojelly - a robot jellyfish called that feeds on water - could aid in
underwater search and rescue operations, say its creators.
Researchers at Virginia Tech built Robojelly from materials known as
shape-memory alloys, which return to their original shape when bent.
Eight moving segments wrapped in carbon nanotubes and coated with a
platinum powder replicate the jellyfish's natural opening-and-closing
method of propulsion.
The robot is powered by heat produced from chemical reactions between
the oxygen and hydrogen in the water and the platinum powder, which
causes the alloys to change shape.
More work is needed to make the hydrogen-powered robot fully functional,
however. The researchers' next step is to figure out a way to deliver
hydrogen to each segment separately, allowing them to be controlled
individually, so that the robot can move in different directions. |
| New Scientist / Smart Materials and Structures
Mar 21, 2012 |
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| Superfast laser camera peers around corners |
Looking around corners is easy - if you can put a mirror at the right
place and only need to see in two dimensions. But what if you don't have
a mirror? The Camera Culture group at the MIT Media Lab have developed a
special flash camera that takes 3D images of what's around the bend.
The camera fires very short laser pulses - lasting only 0.05 trillionths
of a second - at a flat wall that scatters light toward the object
hidden behind a corner, as shown in the video. The object then scatters
some of that light back toward the wall, and for two trillionths of a
second the high-speed camera collects light hitting the wall.
The trick that makes the special camera work is that it sees only light
that makes the round trip in a very narrow slice of time. Changing the
interval between the laser flash and the camera snap measures light
returned at different times, corresponding to parts of the object at
different distances. This allows the system to build up a 3D image of
the hidden object. The resolution is limited by the speed of light,
which travels about 0.6 millimetres during the two trillionths of a
second of each camera frame, and by the fact that light scattered on
different paths can return to the camera at the same time.
The system could be valuable to look for hidden objects in hazardous
areas, according to the researchers. |
| New Scientist / Nature Communications
Mar 20, 2012 |
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| The science of judo |
Every form of exercise uses a different combination of the body's
metabolic systems for energy. Cyclical sports such as running and
cycling are relatively easy to replicate with exercise machines in a
laboratory, but that's harder to do with more unpredictable sports such
as martial arts. So a team of researchers from the University of São
Paulo, Brazil, have taken the lab into the dojo to study the energy
requirements of the Japanese art of judo.
Three systems convert food to energy. During long periods of moderate
exercise, aerobic metabolism does most of the work, using oxygen to turn
sugar into energy, water, and CO2. For shorter, more intense exertion,
or when the oxygen runs out, muscles can break down sugar anaerobically,
although that system is far less efficient and produces muscle-burning
lactic acid as a byproduct. Lastly, for very short bursts of energy,
muscles can rely on another type of anaerobic system: they use up
energy-storing compounds, called phosphagens, in muscular tissues.
The team outfitted judo practitioners with a portable physiology lab: a
mask attached to a device worn on the torso that analyzes gases in the
martial artist's breath and measures the pulse. Once the athletes were
hooked up, combat began. Metabolically, judo turned out to be a mix of
aerobic sports like running and anaerobic sports like weightlifting.
But the data revealed that phosphagen metabolism was crucial for
throwing people, and aerobic metabolism was also higher than expected.
The researchers say the findings should help judo teams train. By
knowing their energy expenditures, for example, martial artists can
better customize their diet. |
| Science Now / Journal of Visualized Experiments
Mar 21, 2012 |
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| Google imagines environment-aware mobile adverts |
If you have ever stood in the rain wondering where the nearest umbrella
shop is, then the latest Google patent may interest you. The search
giant has secured intellectual rights to a system that would serve ads
based on environmental conditions. Google said forward-looking patents
were useful for its portfolio, but it had no current plans to act on it.
But privacy advocates have warned it could set a dangerous precedent.
The patent potentially paves the way for a mobile phone fitted with
sensors that would allow it to record data such as temperature,
humidity, light, and sound or air composition, which would trigger
relevant adverts. The patent would allow Google to search offline data
as well as online.
Gus Hosein, executive director of Privacy International, is not
impressed. 'Not content with collecting vast amounts of information from
your online activities, it seems Google are looking to start exploiting
the offline space as well. Patents like this may never come to fruition,
but they force us to ask ourselves: how many aspects of our lives will
advertisers try to exploit, and where will it end? This is an attempt to
turn our devices into personal spying devices, just so a company can try
to sell you a coat on a cold day.'
Patents are the new battlefield for tech firms, and as well as seeking
to gain as many device-specific patents as possible, many are also
lodging forward-thinking ideas to future-proof themselves. |
| BBC News
Mar 22, 2012 |
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| Vibrating tattoo alerts patent filed by Nokia in US |
Vibrating magnetic tattoos may one day be used to alert mobile phone
users to phone calls and text messages if Nokia follows up a patent
application. The Finnish company has described the idea in a filing to
the US Patent and Trademark Office.
The patent, which was filed last week, describes tattooing, stamping or
spraying 'ferromagnetic' material onto a user's skin and then pairing it
with a mobile device. It says different vibrations could be used to
create a range of alerts. It suggests a magnetic marking could be
attached to either a user's arm, abdominal area, finger or fingernail.
The filing also suggests that the magnetised marking could be used as an
identity check. It says that by picking a certain shape the user could
create a 'specific magnetic impedance' - effectively their own magnetic
fingerprint. It says this could act as a 'password" and gives the
example of a laptop refusing to display content on its screen unless it
verifies its user is close by. |
| BBC News
Mar 20, 2012 |
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| Flying Dutchman is lying Dutchman |
The Dutchman who claimed to have succeeded in making a pair of wings
which allow him to fly like a bird, confessed on Dutch television on
Thursday night that the entire project is a hoax.
The human birdman Jarno Smeets is in fact Dutch filmmaker and animator
Floris Kaayk, who developed the eight-month project as an experiment to
see how online media works, he told a chat show. Kaayk said the
experiment was not about making fakes but about 'telling a story via a
blog'. 'Its about the dream so many people have,' he said.
The video of Smeets taking off in a park in The Hague with his 17-metre
wings went global this week and has been viewed over three million times
on You Tube (http://bit.ly/GCk8zX). |
| Dutch News
Mar 23, 2012 |
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