NASA probes spot man-made ‘bubble’ around Earth
Scientists say NASA’s Van Allen Probes have spotted a man- made barrier around the Earth that prevents high-energy space radiation from reaching the planet
Washington: National Aeronautics and Space Administration (NASA) probes have spotted a man- made barrier around the Earth that prevents high-energy space radiation from reaching the planet, scientists say.
Humans have long been shaping Earth’s landscape, but now scientists have found that we can shape our near-space environment as well.
A certain type of communications—very low frequency (VLF) radio communications—have been found to interact with particles in space, affecting how and where they move. At times, these interactions can create a barrier around Earth against natural high energy particle radiation in space.
“A number of experiments and observations have figured out that, under the right conditions, radio communications signals in the VLF frequency range can in fact affect the properties of the high-energy radiation environment around the Earth,” said Phil Erickson, assistant director at the Massachusetts Institute of Technology (MIT) Haystack Observatory in the US.
VLF signals are transmitted from ground stations at huge powers to communicate with submarines deep in the ocean. While these waves are intended for communications below the surface, they also extend out beyond our atmosphere, shrouding Earth in a VLF bubble.
This bubble is even seen by spacecraft high above Earth’s surface, such as NASA’s Van Allen Probes, which study electrons and ions in the near-Earth environment. The probes have noticed an interesting coincidence—the outward extent of the VLF bubble corresponds almost exactly to the inner edge of the Van Allen radiation belts, a layer of charged particles held in place by Earth’s magnetic fields.
Dan Baker from the University of Colorado in the US coined this lower limit the “impenetrable barrier” and speculates that if there were no human VLF transmissions, the boundary would likely stretch closer to Earth. Indeed, comparisons of the modern extent of the radiation belts from Van Allen Probe data show the inner boundary to be much farther away than its recorded position in satellite data from the 1960s, when VLF transmissions were more limited.
With further study, VLF transmissions may serve as a way to remove excess radiation from the near-Earth environment. Plans are already underway to test VLF transmissions in the upper atmosphere to see if they could remove excess charged particles—which can appear during periods of intense space weather, such as when the sun erupts with giant clouds of particles and energy.
The research was published in the journal Space Science Reviews.