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Artist's impression of low-power LEDs packaged together with other components to make tiny computers less than 1mm in size

Miniaturized, highly efficient light-emitting diodes (green and red; artist’s impression) can be incorporated into computers less than one millimetre square. Credit: Ning Li and Kevin Han

Optics and photonics

Tiny LED could light up a computer that fits on a speck of dust

Ultra-efficient light sources provide optical communication signals even at very low power levels.

Computers the size of dust particles could be fabricated thanks to newly developed light sources, which achieve high efficiency at low power.

Networks of minuscule computers, although potentially useful, can supply very little power to their components. This makes it difficult to produce the light or radio pulses needed for communication across the network. Light-emitting diodes (LEDs) operated at low power, for example, tend to produce more heat than light.

To address this problem, Ning Li and his colleagues at IBM in Yorktown Heights, New York, built a new type of quantum well, a structure contained in LEDs. It traps electrons and holes, which carry negative and positive charges, respectively; the two can combine to emit either light or heat. The team’s quantum well incorporates layers of various semiconductors that allow it to slow heat generation and speed up light generation, increasing the likelihood of the LED emitting a photon at low power.

The researchers built a miniature LED that can provide communication signals on a power consumption of only 1.1 microwatts — significantly lower than that of conventional LEDs — and are using it to make a computer smaller than one millimetre square.

More Research Highlights...

Selected materials found in the gut contents of Tollund Man

The intestinal contents of a man killed in a prehistoric ritual (clockwise from upper left): barley, charred food that had been encrusted in a clay pot, flax seeds and sand. Credit: Peter Steen Henriksen, the Danish National Museum


The guts of a ‘bog body’ reveal sacrificed man’s final meal

Tollund Man, who lived more than 2,000 years ago, ate well before he was hanged.
Illustration of Earth with white lines showing the magnetic field.

Earth’s magnetic field (depicted as white lines in this artist’s impression) can be studied with observations from a constellation of commercial satellites. Credit: Mikkel Juul Jensen/Science Photo Library


Telecoms satellites’ new purpose: spying on Earth’s magnetic field

Clues to the forces generated by the planet’s core emerge from observations intended for satellite navigation.
Ageing of an artwork with graphene

After 130 hours of artificial ageing by visible light, the painting Triton and Nereid has lost some of the purple tint to the figures’ right, but a graphene film kept the bright pink at upper left undimmed. Credit: M. Kotsidi et al./Nature Nanotechnol.

Materials science

A graphene cloak keeps artworks’ colours ageless

A layer of carbon atoms preserves a painting’s vibrant hues — and can be applied and removed without damage.
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