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THEMIS
Mission to Provide New Understanding of Substorm Life
Cycle
WASHINGTON - NASA's THEMIS, the
Time History of Events and Macroscale Interactions during
Substorms mission, is set to venture into space and help resolve
the mystery of what triggers geomagnetic substorms. For the first
time, scientists will get a comprehensive view of the substorm
phenomena from Earth's upper atmosphere to far into space,
pinpointing where and when each substorm begins.
Substorms are atmospheric
events visible in the northern hemisphere as a sudden brightening
of the Northern Lights. THEMIS also will provide clues about the
role of substorms in severe space weather and identify where and
when substorms begin.
THEMIS' five identical probes will
be the largest number of scientific satellites NASA has ever
launched into orbit aboard a single rocket. This unique
constellation of satellites will line up along the sun-Earth
line, collect coordinated measurements every four days, and be
ready to observe more than 30 substorms during the two-year
mission. Data collected from the five probes will pinpoint where
and when substorms begin, a feat impossible with any previous
single-satellite mission.
"For more than 30 years the
source location of these explosive energy releases has been
sought after with great fervor. It is a question almost as old as
space physics itself," said Vassilis Angelopoulos, THEMIS'
principal investigator at the University of California,
Berkeley's Space Sciences Laboratory. "A substorm starts
from a single point in space and progresses past the moon's orbit
within minutes, so a single satellite cannot identify the
substorm origin. The five-satellite constellation of THEMIS will
finally identify the trigger location and the physics involved in
substorms."
Researchers have long known that the
sudden brightening of the Aurora Borealis, or Northern Lights, is
generated when showers of high-speed electrons descend along the
magnetic field lines to strike Earth's upper atmosphere. These
lights are the visible manifestations of invisible energy
releases, called geomagnetic substorms.
Scientists want to learn
when, where, and why solar wind energy stored within Earth's
magnetosphere is explosively released to accelerate electrons
into the Earth's upper atmosphere. To find the answer, the five
THEMIS probes will magnetically map the North American continent
every four days for approximately 15 hours. At the same time, 20
ground stations in Alaska and Canada with automated, all-sky
cameras and magnetometers will document the auroras and space
currents from Earth.
"Many of NASA's future science
missions will be constellations of satellites that will provide
simultaneous, three-dimensional views of nature. THEMIS will give
us a deeper understanding of the impact of the solar wind on the
Earth and provide vital data for our manned explorations as they
travel to the moon and beyond," said Frank Snow, THEMIS
project manager at NASA's Goddard Space Flight Center, Greenbelt,
Md.
THEMIS is set to launch in mid-February aboard a Delta
II rocket from Launch Complex 17-B at Cape Canaveral Air Force
Station, Fla.
THEMIS is the fifth medium-class mission
under NASA's Explorer Program, which provides frequent flight
opportunities for world-class scientific investigations from
space within the heliophysics and astrophysics science areas.
The Explorer Program Office at Goddard manages the
NASA-funded THEMIS mission. The University of California,
Berkeley's Space Sciences Laboratory is responsible for project
management, science and ground-based instruments, mission
integration and post launch operations. Swales Aerospace,
Beltsville, Md., built the THEMIS probes.
Source
/ Credit: NASA
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THEMIS
Launch and Deploy
