Giant space tornadoes drive the northern lights
THEMIS observations revealed vortical structures responsible for hundreds of thousands of amperes of electrical current flowing into Earth's ionosphere and producing spectacular auroral swirls.
April 24, 2009
Provided by the University of California, Berkeley
April 24, 2009
Ground measurements showed that space tornadoes channel their electrical currents into the ionosphere to spark bright and colorful aurorae on Earth.
Photo by Marvin Nauman
Earthbound tornadoes are puny compared to "space tornadoes," which span a volume as large as Earth and produce electrical currents exceeding 100,000 amperes, according to new observations by a suite of five NASA space probes.
The probe cluster, called Time History of Events and Macroscale Interactions during Substorms (THEMIS), recorded the extent and power of these electrical funnels as the probes passed through them during their orbit of Earth. Ground measurements showed that the space tornadoes channel the electrical current into the ionosphere to spark bright and colorful aurorae on Earth.
The findings were presented during a press conference April 23 at the general assembly of the European Geosciences Union (EGU) in Vienna, Austria.
Space tornadoes are rotating plasmas of hot, ionized gas flowing at speeds of more than 1 million mph (1.6 million km/h), far faster than the 200 mph (300 km/h) winds of terrestrial tornadoes, according to Andreas Keiling, a research space physicist at the University of California, Berkeley's Space Sciences Laboratory.
Keiling works on THEMIS, which UC-Berkeley built and now operates. NASA launched the five space probes in February 2007 to solve a decades-long mystery about the origin of magnetic storms that power the northern and southern lights.
Both terrestrial and space tornadoes consist of funnel-shaped structures. Space tornadoes, however, generate huge amounts of electrical currents inside the funnel. These currents flow along twisted magnetic field lines from space into the ionosphere, where they power several processes, most notably bright aurorae such as the northern lights, Keiling said.
Observations by THEMIS in the nightside magnetosphere revealed the presense of vortical structures responsible for hundreds of thousands of Amps of electrical current flowing into Earth's ionosphere and producing spectacular auroral swirls.
Photo by A. Keiling et al., THEMIS/NASA
While these intense currents do not cause any direct harm to humans, on the ground they can damage man-made structures, such as power transformers.
The THEMIS spacecraft observed these tornadoes, or "flow vortices," at a distance of about 40,000 miles (64,000 kilometers) from Earth. Simultaneous measurements by THEMIS ground observatories confirmed the tornadoes' connection to the ionosphere.
Keiling's colleagues include Karl-Heinz Glassmeier of the Institute for Geophysics and Extraterrestrial Physics (IGEP, TU) in Braunschweig, Germany, and Olaf Amm of the Finnish Meteorological Institute in Helsinki, Findland.