TY - JOUR
T1 - Defining the Middle Corona
AU - West, Matthew J.
AU - Seaton, Daniel B.
AU - Wexler, David B.
AU - Raymond, John C.
AU - Del Zanna, Giulio
AU - Rivera, Yeimy J.
AU - Kobelski, Adam R.
AU - Chen, Bin
AU - DeForest, Craig
AU - Golub, Leon
AU - Caspi, Amir
AU - Gilly, Chris R.
AU - Kooi, Jason E.
AU - Meyer, Karen A.
AU - Alterman, Benjamin L.
AU - Alzate, Nathalia
AU - Andretta, Vincenzo
AU - Auchère, Frédéric
AU - Banerjee, Dipankar
AU - Berghmans, David
AU - Chamberlin, Phillip
AU - Chitta, Lakshmi Pradeep
AU - Downs, Cooper
AU - Giordano, Silvio
AU - Harra, Louise
AU - Higginson, Aleida
AU - Howard, Russell A.
AU - Kumar, Pankaj
AU - Mason, Emily
AU - Mason, James P.
AU - Morton, Richard J.
AU - Nykyri, Katariina
AU - Patel, Ritesh
AU - Rachmeler, Laurel
AU - Reardon, Kevin P.
AU - Reeves, Katharine K.
AU - Savage, Sabrina
AU - Thompson, Barbara J.
AU - Van Kooten, Samuel J.
AU - Viall, Nicholeen M.
AU - Vourlidas, Angelos
AU - Zhukov, Andrei N.
N1 - Publisher Copyright:
© 2023, The Author(s).
PY - 2023/6
Y1 - 2023/6
N2 - The middle corona, the region roughly spanning heliocentric distances from 1.5 to 6 solar radii, encompasses almost all of the influential physical transitions and processes that govern the behavior of coronal outflow into the heliosphere. The solar wind, eruptions, and flows pass through the region, and they are shaped by it. Importantly, the region also modulates inflow from above that can drive dynamic changes at lower heights in the inner corona. Consequently, the middle corona is essential for comprehensively connecting the corona to the heliosphere and for developing corresponding global models. Nonetheless, because it is challenging to observe, the region has been poorly studied by both major solar remote-sensing and in-situ missions and instruments, extending back to the Solar and Heliospheric Observatory (SOHO) era. Thanks to recent advances in instrumentation, observational processing techniques, and a realization of the importance of the region, interest in the middle corona has increased. Although the region cannot be intrinsically separated from other regions of the solar atmosphere, there has emerged a need to define the region in terms of its location and extension in the solar atmosphere, its composition, the physical transitions that it covers, and the underlying physics believed to shape the region. This article aims to define the middle corona, its physical characteristics, and give an overview of the processes that occur there.
AB - The middle corona, the region roughly spanning heliocentric distances from 1.5 to 6 solar radii, encompasses almost all of the influential physical transitions and processes that govern the behavior of coronal outflow into the heliosphere. The solar wind, eruptions, and flows pass through the region, and they are shaped by it. Importantly, the region also modulates inflow from above that can drive dynamic changes at lower heights in the inner corona. Consequently, the middle corona is essential for comprehensively connecting the corona to the heliosphere and for developing corresponding global models. Nonetheless, because it is challenging to observe, the region has been poorly studied by both major solar remote-sensing and in-situ missions and instruments, extending back to the Solar and Heliospheric Observatory (SOHO) era. Thanks to recent advances in instrumentation, observational processing techniques, and a realization of the importance of the region, interest in the middle corona has increased. Although the region cannot be intrinsically separated from other regions of the solar atmosphere, there has emerged a need to define the region in terms of its location and extension in the solar atmosphere, its composition, the physical transitions that it covers, and the underlying physics believed to shape the region. This article aims to define the middle corona, its physical characteristics, and give an overview of the processes that occur there.
KW - Corona
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U2 - 10.1007/s11207-023-02170-1
DO - 10.1007/s11207-023-02170-1
M3 - Review article
AN - SCOPUS:85161868738
SN - 0038-0938
VL - 298
JO - Solar Physics
JF - Solar Physics
IS - 6
M1 - 78
ER -