TY - JOUR
T1 - Thermodynamics of the Solar Corona and Evolution of the Solar Magnetic Field as Inferred from the Total Solar Eclipse Observations of 2010 July 11
AU - Habbal, Shadia Rifai
AU - Druckmüller, Miloslav
AU - Morgan, Huw
AU - Ding, Adalbert
AU - Johnson, Judd
AU - Druckmüllerová, Hana
AU - Daw, Adrian
AU - Arndt, Martina B.
AU - Dietzel, Martin
AU - Saken, Jon
PY - 2011/6/20
Y1 - 2011/6/20
N2 - We report on the first multi-wavelength coronal observations, taken
simultaneously in white light, Hα 656.3 nm, Fe IX 435.9 nm, Fe X
637.4 nm, Fe XI 789.2 nm, Fe XIII 1074.7 nm, Fe XIV 530.3 nm, and Ni XV
670.2 nm, during the total solar eclipse of 2010 July 11 from the atoll
of Tatakoto in French Polynesia. The data enabled temperature
differentiations as low as 0.2 × 106 K. The first-ever
images of the corona in Fe IX and Ni XV showed that there was very
little plasma below 5 × 105 K and above 2.5 ×
106 K. The suite of multi-wavelength observations also showed
that open field lines have an electron temperature near 1×
106 K, while the hottest, 2× 106 K, plasma
resides in intricate loops forming the bulges of streamers, also known
as cavities, as discovered in our previous eclipse observations. The
eclipse images also revealed unusual coronal structures, in the form of
ripples and streaks, produced by the passage of coronal mass ejections
and eruptive prominences prior to totality, which could be identified
with distinct temperatures for the first time. These trails were most
prominent at 106 K. Simultaneous Fe X 17.4 nm observations
from Proba2/SWAP provided the first opportunity to compare Fe X emission
at 637.4 nm with its extreme-ultraviolet (EUV) counterpart. This
comparison demonstrated the unique diagnostic capabilities of the
coronal forbidden lines for exploring the evolution of the coronal
magnetic field and the thermodynamics of the coronal plasma, in
comparison with their EUV counterparts in the distance range of 1-3 R
sun. These diagnostics are currently missing from present
space-borne and ground-based observatories.
AB - We report on the first multi-wavelength coronal observations, taken
simultaneously in white light, Hα 656.3 nm, Fe IX 435.9 nm, Fe X
637.4 nm, Fe XI 789.2 nm, Fe XIII 1074.7 nm, Fe XIV 530.3 nm, and Ni XV
670.2 nm, during the total solar eclipse of 2010 July 11 from the atoll
of Tatakoto in French Polynesia. The data enabled temperature
differentiations as low as 0.2 × 106 K. The first-ever
images of the corona in Fe IX and Ni XV showed that there was very
little plasma below 5 × 105 K and above 2.5 ×
106 K. The suite of multi-wavelength observations also showed
that open field lines have an electron temperature near 1×
106 K, while the hottest, 2× 106 K, plasma
resides in intricate loops forming the bulges of streamers, also known
as cavities, as discovered in our previous eclipse observations. The
eclipse images also revealed unusual coronal structures, in the form of
ripples and streaks, produced by the passage of coronal mass ejections
and eruptive prominences prior to totality, which could be identified
with distinct temperatures for the first time. These trails were most
prominent at 106 K. Simultaneous Fe X 17.4 nm observations
from Proba2/SWAP provided the first opportunity to compare Fe X emission
at 637.4 nm with its extreme-ultraviolet (EUV) counterpart. This
comparison demonstrated the unique diagnostic capabilities of the
coronal forbidden lines for exploring the evolution of the coronal
magnetic field and the thermodynamics of the coronal plasma, in
comparison with their EUV counterparts in the distance range of 1-3 R
sun. These diagnostics are currently missing from present
space-borne and ground-based observatories.
KW - eclipses
KW - solar wind
KW - Sun: corona
UR - http://hdl.handle.net/2160/9116
U2 - 10.1088/0004-637X/734/2/120
DO - 10.1088/0004-637X/734/2/120
M3 - Article
SN - 0004-637X
VL - 734
SP - 120
JO - Astrophysical Journal
JF - Astrophysical Journal
IS - 2
ER -