Danger Signals From the Sun
Scientists have found a new way to detect harmful radiation explosions from the Sun.
While most of the particles striking the Earth are harmless, producing beautiful displays of the northern and southern lights (aurora borealis and australis), the violently expelled CMEs can create a shock wave in the gas that normally blows from the Sun the solar wind. A strong enough shock wave supercharges the solar wind, dramatically accelerating its electrically charged particles and creating a shower of harmful radiation particles.
Natchimuthuk Gopalswamy (NASA/Goddard Space Flight Center) and others analyzed CMEs observed by the SOHO and Wind spacecraft between 1996 and 2005 and found that only 12% resulted in particle storms. SOHO took visual films of the some 10,000 CMEs, while Wind listened for their radio waves.
The scientists determine that only the faster CMEs (traveling at millions of miles per hour) create the radiation storm. “But about one third of the fast CMEs don’t produce a particle storm,” says Gopalswamy. “So if you see a very fast CME, how do you know it’s going to produce a particle storm?”
The key is radio waves. Aside from accelerating a solar wind’s atomic nuclei, a strong CME shock can also cause the accelerating electrons to convert part of their energy into electromagnetic radiation at radio wavelengths. These low-frequency radio waves travel at the speed of light and reach Earth in about eight minutes. Meanwhile, their corresponding particles arrive anywhere from minutes to hours later. The CMEs that produce this radio emission are called radio loud (those that don’t are called radio quiet), and scientists think it’s the loud ones that cause the radiation storm.
Out of about 500 fast ejections SOHO detected, one third of them did not have radio emissions. “Those 156 radio-quiet CMEs were not followed by particle radiation,” says Gopalswamy. “Most of the radio-loud CMEs were followed by particles. This is how to discriminate between them.”
While the dangerous CMEs were all fast-moving, scientists noted that most of the radio-emitting CMEs they detected originated from the solar equator that faces Earth, while the ones without radio waves came from higher or lower latitudes of the Sun. This indicates that the distinction between fast radio-loud and quiet CMEs may be due to geometry and that an efficient radio detector would have to be between an astronaut and the Sun, not just on Earth.