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Have Scientists Discovered a Radio ‘Space Shield?’
Space, it turns out, is not a very safe place for electronic devices.
High-energy space particles can cause serious problems for satellites and electronic equipment, even on the Earth’s surface. These particles usually come from storms on the sun.
But there may be a way to protect against dangerous high-energy particles by using a kind of radio wave.
The magnetic field around the Earth protects it from the effects of many kinds of high-energy particles. This shield is called the Van Allen belt. It was discovered by the first American satellite, Explorer 1, in 1958.
In the years since, scientists have learned the ‘belt’ is really three belts that change in size and shape over time.
One kind of radio wave may be able to provide protection against some high-energy particles. It may even be be able to protect against so-called “killer electrons.”
Scientists call these radio waves Very Low Frequency, of VLF.
Dan Baker1 is director of the Laboratory of Atmosphere and Space Physics at the University of Colorado, Boulder2. His team discovered how these radio waves work.
He said scientists have long been trying to find ways to protect against different kinds of space debris3 and other dangers.
“We’ve been trying to figure out, ‘how can we most effectively eliminate this debris without causing more of a problem?’”
Tiny particles can cause a lot of damage
Space debris can be something as small as a chip of paint or as large as a rocket booster. Even the smallest pieces of debris can be dangerous because they travel at very high speeds as they orbit the Earth.
Baker said high-energy particles that are smaller than an atom, such as the “killer electrons,” also can be a major danger.
“We know, we’ve observed them to cause very significant problems for spacecraft.”
High-energy particles can damage electric circuits in space stations, weather satellites and other machines traveling in space.
“There are over 1,400 satellites operating in space around the Earth and all of those could be subject to very severe consequences,” Baker said.
These kinds of particles can come from human activity; atmospheric4 tests of nuclear weapons can send out huge amounts of radiation, including high-energy particles.
“Now what is worrisome to us from a political standpoint today is that there are nations, for example, North Korea and others, that may be thinking once again…that this might be an interesting way to mess with modern technology.”
Even with the protection of the Van Allen belts, radiation from space can cause problems for modern technology.
Satellites built to operate in or above the Van Allen belts must have thicker coverings. That makes them heavier and more costly5. But satellites orbiting below the Van Allen belt do not need such heavy shielding.
Scientists have known for years that something from Earth clears away dangerous electrons from lower levels in the Van Allen belts. But what that was remained unclear.
A bubble of protection
Baker’s team found that VLF radio waves improve protection against high-energy particles. He calls the safe area a “bubble.”
VLF waves have unusual properties for radio waves. They are used to communicate with submarines near the surface of the sea. But they also go up into the atmosphere and beyond.
“So the VLF bubble is made up of these intense waves. These waves act to sort of scatter6 and scrub the inner part of the Van Allen belt.”
John Bonnell is a researcher with the Space Sciences Laboratory of the University of California, Berkeley. He compared the effect of VLF waves to how lightening clears away electrons from the atmosphere. He said while VLF waves might be considered a form of radio pollution, “the likelihood of there being a bad side effect is pretty minimal7.”
Bonnell said the discovery does not necessarily mean that scientists have discovered a way to make a kind of “space shield.” Imagine an energy shield that protects a spaceship from attack in a science fiction movie.
But, Bonnell said, “It’s a fascinating possibility and it’s a fascinating technology that could enable, in the future, us to explore more of the solar system with people, with robots.”
The finding could be an example of how scientists, engineers and astronomers8 work together to make a remarkable9 discovery. The findings could lead to “shields” that protect costly satellites, spacecraft and even people in the future as they push deeper into outer space.
I’m Mario Ritter.
Words in This Story
particles –n. part of something, such as an atom, not a whole
debris –n. pieces left after something has been broken up
circuitry –n. the workings of an electronic device that govern electrical flow
consequences –n. results
adherent10 –n. the state of following a system of beliefs or rules
mess –n. a group of disorganized things
scatter –v. to force apart and send to different areas
scrub –v. to clear using forceful action
minimal –adj. the least amount
fascinating –adj. very interesting
1 baker | |
n.面包师 | |
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2 boulder | |
n.巨砾;卵石,圆石 | |
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3 debris | |
n.瓦砾堆,废墟,碎片 | |
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4 atmospheric | |
adj.大气的,空气的;大气层的;大气所引起的 | |
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5 costly | |
adj.昂贵的,价值高的,豪华的 | |
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6 scatter | |
vt.撒,驱散,散开;散布/播;vi.分散,消散 | |
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7 minimal | |
adj.尽可能少的,最小的 | |
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8 astronomers | |
n.天文学者,天文学家( astronomer的名词复数 ) | |
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9 remarkable | |
adj.显著的,异常的,非凡的,值得注意的 | |
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10 adherent | |
n.信徒,追随者,拥护者 | |
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