What, the guy from X-Men?
Not quite. It’s the huge magnetic
field generated by charged
particles in the Earth’s molten
core.
What does it do?
As well as producing the
spectacular aurorae near the
poles and providing animals such
as migratory birds and sea turtles
with a means of navigating, it
also protects us from being
bombarded with radiation from
solar winds.
Hurrah for that. Anything else
I need to know?
The field has weakened by 15
per cent over the last 200 years.
Some scientists say this suggests
that Earth’s poles are about
to flip.
What? So north will be south
and south will be north?
Kind of. Compasses would point
south instead of north but it
would be a bit silly to rename the
hemispheres, wouldn’t it?
I guess. Should I be worried?
No. It’s happened many times in
the past and there’s no evidence
in the fossil record of a switch
causing any species to go
extinct. In any case, the poles
typically take several thousand
years to flip.
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Graphene chips now a reality
Superfast Wi-Fi may soon be on
its way to all our homes, now that
researchers at IBM have managed
to create the first fully functioning
radio transmitter chip to be
built using the so-called ‘miracle
material’ graphene.
As it has outstanding electrical,
optical, mechanical and thermal
properties, graphene is less
expensive and more energy
efficient than the silicon that is
currently used in the construction
of computer chips. Furthermore,
chips made from the material
could potentially allow mobile
devices such as smartphones or
tablets to transmit data at much
higher speeds.
However, as graphene consists
of just a single layer of carbon atoms
bonded together in a honeycomb
structure, the material is also
extremely fragile. To get around
this problem, the team reversed the
usual manufacturing process and
placed the metal elements on the
chip before adding the graphene.
The resulting transmitter proved to
be 10,000 times faster than previous
attempts to build a graphene chip
had managed to produce.
“This is the first time that
someone has shown graphene
devices and circuits to [be capable
of performing] modern wireless
communication functions
comparable to silicon technology,”
said Supratik Guha, Director of
Physical Sciences at IBM’s Thomas
J Watson Research Center in
New York.
its way to all our homes, now that
researchers at IBM have managed
to create the first fully functioning
radio transmitter chip to be
built using the so-called ‘miracle
material’ graphene.
As it has outstanding electrical,
optical, mechanical and thermal
properties, graphene is less
expensive and more energy
efficient than the silicon that is
currently used in the construction
of computer chips. Furthermore,
chips made from the material
could potentially allow mobile
devices such as smartphones or
tablets to transmit data at much
higher speeds.
However, as graphene consists
of just a single layer of carbon atoms
bonded together in a honeycomb
structure, the material is also
extremely fragile. To get around
this problem, the team reversed the
usual manufacturing process and
placed the metal elements on the
chip before adding the graphene.
The resulting transmitter proved to
be 10,000 times faster than previous
attempts to build a graphene chip
had managed to produce.
“This is the first time that
someone has shown graphene
devices and circuits to [be capable
of performing] modern wireless
communication functions
comparable to silicon technology,”
said Supratik Guha, Director of
Physical Sciences at IBM’s Thomas
J Watson Research Center in
New York.
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