for National Geographic News
A flood of interstellar dust is breaching the sun's weakened magnetic shield and drifting into the solar system, according to European astronomers.
The interstellar dust particles measure about one-hundredth the diameter of a human hair. The bits are thought to supply the building blocks of all solid bodies in the galaxy, including the planets and humans.
"All atoms in Earth were in interstellar grains before the solar system formed," said Donald Brownlee, an astronomer at the University of Washington in Seattle. The dust is believed to be composed of heavy elements such as carbon, magnesium, iron, and calcium.
The dust grains pose no serious threat to the planets. But they could chip away at the solar panels on spacecraft, causing a gradual loss of power, and knock particles off asteroids, filling the solar system with even more dust. On Earth, stargazers may observe a greater number of shooting stars.
"All these effects are not yet observed but they are expected," said Markus Landgraf, an astronomer with the European Space Agency in Darmstadt, Germany. Landgraf discovered the influx of dust using data from the agency's Ulysses spacecraft.
Since its launch in 1990, Ulysses has monitored how much dust enters the solar system from the interstellar space around it. Until ten years ago, astronomers believed that bits of interstellar dust could not penetrate the sun's magnetic field.
Using data gathered by Ulysses, astronomers learned that stardust can enter the solar system. However, the flow of stardust is regulated by the sun's magnetic field, which is drawn out by the solar winda flow of ionized gas that expands away from the sun's surface and extends out beyond the edge of the solar system.
The field was thought to be strong enough to prevent the tiny interstellar dust particles from entering the solar system.
"The dust grains are however about five times larger and one hundred times more massive than was thought before," said Landgraf. "That's why the force of gravity is about the same or even a little less than the solar radiation pressure."
When the magnetic field weakens, more grains of dust are able to leak into the solar system. The field weakens periodically during phases of intense sunspot activity as part of the sun's 22-year cycle.
These phases of intense activity are called solar maximums. The intense activity causes the magnetic field to become disordered as its polarity reverses, rendering it less effective as a shield against tiny dust particles floating around in interstellar space.
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