快猫短视频

Smart dust could give early warning of space storms

Tiny spacecraft could improve our ability to detect sun storms, adding valuable minutes to the time we have to act
Solar flare, headed our way
Solar flare, headed our way
(Image: SOHO/ESA/NASA/SPL)

A SWARM of 鈥渟mart dust鈥 spacecraft, positioned at a sweet spot between the Earth and the sun, could alert us to the approach of dangerous space storms well before a conventional craft can. The first prototypes are due for launch into low-Earth orbit this year, perhaps as early as May.

, a mechanical engineer at Cornell University in Ithaca, New York, and his colleague Justin Atchison have designed a 1-centimetre-square spacecraft that is 25 micrometres thick and weighs under 7.5 milligrams. The craft is modelled on the dust particles that orbit the sun and are propelled by the photons streaming out from the sun. This solar radiation pressure would have a negligible effect on normal-sized spacecraft but is significant at the millimetre scale. The grooved edges of the 鈥渟pacecraft-on-a chip鈥 deflect incoming photons in such a way as to ensure it always faces the sun.

The craft鈥檚 miniature size would let it hitch a ride into space on the back of another satellite mission headed for the Lagrange point between the Earth and the sun. A Lagrange point is a kind of gravitational sweet spot, where a small object can be stationary relative to two larger objects.

The chips are essentially small solar panels with a radio antenna, and could act as a solar wind sensor (Acta Astronautica ).

The team envisage sending a whole swarm of these 鈥渟mart dust鈥 chips to the Lagrange point, where they would monitor the strength of the solar wind. They would also warn of any oncoming gusts of charged particles that could disrupt communications and electronic systems on Earth.

After the tiny craft has been dropped off at the Lagrange point, the effect of solar radiation moves it closer to the sun. Peck estimates that this could give an extra 13 minutes鈥 notice of a storm compared with larger solar monitoring craft such as NASA鈥檚 .

鈥淭hey can edge closer to the sun than a larger craft monitoring solar activity, buying an extra 13 minutes鈥

The prototype is in the final stages of development, and in the next few months will undergo tests at the terrestrial testbed at Cornell to examine its communication capabilities and durability. At least one chip capable of sending back temperature data will be launched later this year. 鈥淎t this stage we鈥檙e just hoping to demonstrate that a spacecraft the size of a fingernail is feasible,鈥 Peck says.

from the University of Strathclyde in the UK says: 鈥淭here is a strong international interest in 鈥榮pacecraft-on-a-chip鈥 concepts. Peck鈥檚 group have some great ideas which are firmly grounded in terrestrial applications of microelectromechanical technology.鈥

Topics: Solar system / Space flight