Transcript Document

The
Group
MSU
Webpage: solar.physics.montana.edu
Solar Physics Group
MSU Solar Physics is…
RHESSI and Max Millennium
Reuven Ramaty High Energy Solar Spectroscopic Imager
• Researchers believe that energy released during a solar flare accelerates
electrons, which emit primarily X-rays, and ions, which emit primarily
gamma rays.
• NASA’s RHESSI mission, launched in Feb. 2002, combines for the first
time high-resolution imaging in hard X-rays and gamma rays with highresolution spectroscopy, providing detailed energy spectra at each point of a
solar flare image. Co-investigator: Prof. Richard Canfield (MSU)
• MSU oversees the Max Millennium Program to coordinate observations,
data analysis, and theory of solar flares.
Magnetic Modeling
•MSU’s Solar Theory Group, Prof. Dana Longcope, Prof. Piet Martens,
performs analytic and computational studies of solar magnetic fields, addressing
questions like:
 How does the coronal magnetic field become stressed & why does it suddenly
release its stress as a flare or microflare? (Perhaps discontinuities, like "fractures",
form in the magnetic field.)
 What identifies the part of the magnetic field where stress will accumulate?
(Where will it "fracture"?)
How does the magnetic field generated inside the Sun rise to the surface? It
seems to form slender strands (flux tubes)—why?
Can details of the rise process tell us anything about the way magnetic field is
generated inside?
SSEL’s MOSES
TRACE
Space Science and Engineering Lab
Transition Region And Coronal Explorer
• MSU’s laboratory for the construction of space experiments on
rockets and satellites.
Director: Prof. David Klumpar
• The project closest to our hearts is a rocket payload called the
Multi-Order Solar EUV Spectrograph. MOSES, under the
leadership of Prof. Charles Kankelborg, gets an
unbelievable wealth of full-Sun EUV imaging and spectroscopy
information, just waiting to be picked apart by a curious physicist.
•The MSU solar group plays a large role in the day-to-day
operation and scientific utilization of the NASA TRACE
mission which was launched early in 1998.
•This battery of 4 ultraviolet telescopes provides spectacular
new observations of the thin and dynamic interface region at the
base of the corona. This region is also the source of much of the
ionizing radiation that determines the properties of the upper
atmosphere of the earth, such as the ionosphere and the ozone
layer.
Yohkoh
•The primary emission of the extremely hot outer atmosphere
of the Sun, the solar corona, is at X-ray wavelengths. The
extended duration, high resolution X-ray images from Yohkoh
are being analyzed in an effort to learn why the Sun has a
corona and why it varies in intensity so strongly in response
to the 11-year solar cycle. This satellite carried a solar X-ray
telescope, prepared under the leadership of Prof. Loren
Acton (MSU), designed to study high energy processes on
the Sun.
• MSU is actively analyzing the results from the
Japan/US/UK Yohkoh mission for studies of high-energy
solar physics, which was launched in 1991 and operated until
December 2001.
SDO/AIA
• The Solar Dynamics Observatory will be the flagship for
NASA's Living With a Star program, providing continuous
observations of the Sun's magnetic fields, its surface and
atmosphere, and the overall radiative output. MSU is a partner
with Lockheed Martin Solar and Astrophysics Laboratory and
the Harvard Smithsonian Astrophysical Observatory in the
development of SDO's Atmospheric Imaging Assembly, which
will be the most complex extreme-ultraviolet telescope ever
constructed. Co-investigators: Prof. Piet Martens, Prof.
David McKenzie (both MSU). With a full-Sun field of view
and unsurpassed clarity, AIA will observe in eight wavelength
passbands to sample eight distinct regimes of plasma
temperature every ten seconds, yielding the most complete
picture of solar activity to date.