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Flare Characteristics
Solar flares
are tremendous explosions on the surface of the Sun. In a
matter of just a few minutes they heat material to many
millions of degrees and release as much energy as a billion
megatons of TNT. They occur near sunspots, usually along the
dividing line (neutral line) between areas of oppositely
directed magnetic fields.
Flares release
energy in many forms - electro-magnetic (Gamma rays and
X-rays), energetic particles (protons and electrons), and mass
flows. Flares are characterized by their brightness in X-rays
(X-Ray flux). The biggest flares are X-Class flares. M-Class
flares have a tenth the energy and C-Class flares have a tenth
of the X-ray flux seen in M-Class flares. The National Oceanic
and Atmospheric Administration (NOAA) monitors the X-Ray flux
from the Sun with detectors on some of its satellites.
Observations for the last few days are available at NOAA's
website for Today's
Space Weather.
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Flare Observations
Solar flares
are often observed using filters to isolate the light emitted
by hydrogen atoms in the red region of the solar spectrum (the
H-alpha spectral line). Most solar observatories have H-alpha
telescopes and some observatories monitor the Sun for solar
flares by capturing images of the Sun every few seconds. The
images at the left are from the Big
Bear Solar Observatory.
The image at the upper left shows material erupting from a
flare near the limb of the Sun on October 10th, 1971. The 4.2MB
mpeg movie of this
flare shows how material is blasted off of the Sun within just
a few minutes. The image at the lower left shows a powerful
flare observed on the disk of the Sun on August 7th, 1972.
This is an example of a "two-ribbon" flare in which
the flaring region appear as two bright lines threading
through the area between sunspots within a sunspot group. (See
the 2.2MB
mpeg movie.) This
particular flare, the "seahorse flare," produced
radiation levels that would have been harmful to astronauts if
a moon mission had been in progress at the time.
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Flares
and Magnetic Shear
The key to
understanding and predicting solar flares is the structure of
the magnetic field around sunspots. If this structure becomes
twisted and sheared then magnetic field lines can cross and
reconnect with the explosive release of energy. In the image
to the left the blue lines represent the neutral lines between
areas of oppositely directed magnetic fields. Normally the
magnetic field would loop directly across these lines from
positive (outward pointing magnetic field) to negative (inward
pointing magnetic field ) regions. The small line segments
show the strength and direction of the magnetic field measured
with the MSFC
Vector Magnetograph.
These lines and line segments overlie an image of a group of
sunspots with a flaring region. The flare (the bright area)
lies along a section of a neutral line where the magnetic
field is twisted (or sheared) to point along the neutral line
instead of across it. We have found that this shear is a key
ingredient in the production of solar flares.
Related Links:
Solar
Flare Leaves Sun Quaking - "Scientists have
shown for the first time that solar flares produce
seismic waves in the Sun's interior that closely
resemble those created by earthquakes on our planet.
The researchers observed a flare-generated solar quake
that contained about 40,000 times the energy released
in the great earthquake that devastated San Francisco
in 1906. The amount of energy released was enough to
power the United States for 20 years at its current
level of consumption, and was equivalent to an 11.3
magnitude earthquake, scientists calculated..."
See
Flare Observations Here
Solar
Cinema
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