Waves and Magnetism in the Solar Atmosphere (WAMIS)

L. Strachan; Y. K. Ko; J. D. Moses; J. M. Laming; F. Auchere; R. Casini; S. Fineschi; S. Gibson; M. Knoelker; C. Korendyke; S. McIntosh; M. Romoli; J. Rybak; D. Socker; S. Tomczyk; A. Vourlidas; Q. Wu

doi:10.1017/S1743921315004639

Waves and Magnetism in the Solar Atmosphere (WAMIS)

L. Strachan, Y. K. Ko, J. D. Moses, J. M. Laming, F. Auchere, R. Casini, S. Fineschi, S. Gibson, M. Knoelker, C. Korendyke, S. McIntosh, M. Romoli, J. Rybak, D. Socker, S. Tomczyk, A. Vourlidas, Q. Wu

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Abstract

Magnetic fields in the solar atmosphere provide the energy for most varieties of solar activity, including high-energy electromagnetic radiation, solar energetic particles, flares, and coronal mass ejections, as well as powering the solar wind. Despite the fundamental role of magnetic fields in solar and heliospheric physics, there exist only very limited measurements of the field above the base of the corona. What is needed are direct measurements of not only the strength and orientation of the magnetic field but also the signatures of wave motions in order to better understand coronal structure, solar activity, and the role of MHD waves in heating and accelerating the solar wind. Fortunately, the remote sensing instrumentation used to make magnetic field measurements is also well suited to measure the Doppler signature of waves in the solar structures. We present here a mission concept for the Waves And Magnetism In the Solar Atmosphere (WAMIS) experiment which is proposed for a NASA long-duration balloon flight.

Original language	English
Pages (from-to)	121-126
Number of pages	6
Journal	Proceedings of the International Astronomical Union
Volume	10
DOIs	https://doi.org/10.1017/S1743921315004639
State	Published - 2015

Keywords

Sun: corona
Sun: magnetic fields
balloons
instrumentation: polarimeters

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10.1017/S1743921315004639

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Strachan, L., Ko, Y. K., Moses, J. D., Laming, J. M., Auchere, F., Casini, R., Fineschi, S., Gibson, S., Knoelker, M., Korendyke, C., McIntosh, S., Romoli, M., Rybak, J., Socker, D., Tomczyk, S., Vourlidas, A., & Wu, Q. (2015). Waves and Magnetism in the Solar Atmosphere (WAMIS). Proceedings of the International Astronomical Union, 10, 121-126. https://doi.org/10.1017/S1743921315004639

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title = "Waves and Magnetism in the Solar Atmosphere (WAMIS)",

abstract = "Magnetic fields in the solar atmosphere provide the energy for most varieties of solar activity, including high-energy electromagnetic radiation, solar energetic particles, flares, and coronal mass ejections, as well as powering the solar wind. Despite the fundamental role of magnetic fields in solar and heliospheric physics, there exist only very limited measurements of the field above the base of the corona. What is needed are direct measurements of not only the strength and orientation of the magnetic field but also the signatures of wave motions in order to better understand coronal structure, solar activity, and the role of MHD waves in heating and accelerating the solar wind. Fortunately, the remote sensing instrumentation used to make magnetic field measurements is also well suited to measure the Doppler signature of waves in the solar structures. We present here a mission concept for the Waves And Magnetism In the Solar Atmosphere (WAMIS) experiment which is proposed for a NASA long-duration balloon flight.",

keywords = "Sun: corona, Sun: magnetic fields, balloons, instrumentation: polarimeters",

author = "L. Strachan and Ko, \{Y. K.\} and Moses, \{J. D.\} and Laming, \{J. M.\} and F. Auchere and R. Casini and S. Fineschi and S. Gibson and M. Knoelker and C. Korendyke and S. McIntosh and M. Romoli and J. Rybak and D. Socker and S. Tomczyk and A. Vourlidas and Q. Wu",

note = "Publisher Copyright: Copyright {\textcopyright} 2015 International Astronomical Union.",

year = "2015",

doi = "10.1017/S1743921315004639",

language = "English",

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pages = "121--126",

journal = "Proceedings of the International Astronomical Union",

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Strachan, L, Ko, YK, Moses, JD, Laming, JM, Auchere, F, Casini, R, Fineschi, S, Gibson, S, Knoelker, M, Korendyke, C, McIntosh, S, Romoli, M, Rybak, J, Socker, D, Tomczyk, S, Vourlidas, A & Wu, Q 2015, 'Waves and Magnetism in the Solar Atmosphere (WAMIS)', Proceedings of the International Astronomical Union, vol. 10, pp. 121-126. https://doi.org/10.1017/S1743921315004639

TY - JOUR

T1 - Waves and Magnetism in the Solar Atmosphere (WAMIS)

AU - Strachan, L.

AU - Ko, Y. K.

AU - Moses, J. D.

AU - Laming, J. M.

AU - Auchere, F.

AU - Casini, R.

AU - Fineschi, S.

AU - Gibson, S.

AU - Knoelker, M.

AU - Korendyke, C.

AU - McIntosh, S.

AU - Romoli, M.

AU - Rybak, J.

AU - Socker, D.

AU - Tomczyk, S.

AU - Vourlidas, A.

AU - Wu, Q.

PY - 2015

Y1 - 2015

N2 - Magnetic fields in the solar atmosphere provide the energy for most varieties of solar activity, including high-energy electromagnetic radiation, solar energetic particles, flares, and coronal mass ejections, as well as powering the solar wind. Despite the fundamental role of magnetic fields in solar and heliospheric physics, there exist only very limited measurements of the field above the base of the corona. What is needed are direct measurements of not only the strength and orientation of the magnetic field but also the signatures of wave motions in order to better understand coronal structure, solar activity, and the role of MHD waves in heating and accelerating the solar wind. Fortunately, the remote sensing instrumentation used to make magnetic field measurements is also well suited to measure the Doppler signature of waves in the solar structures. We present here a mission concept for the Waves And Magnetism In the Solar Atmosphere (WAMIS) experiment which is proposed for a NASA long-duration balloon flight.

AB - Magnetic fields in the solar atmosphere provide the energy for most varieties of solar activity, including high-energy electromagnetic radiation, solar energetic particles, flares, and coronal mass ejections, as well as powering the solar wind. Despite the fundamental role of magnetic fields in solar and heliospheric physics, there exist only very limited measurements of the field above the base of the corona. What is needed are direct measurements of not only the strength and orientation of the magnetic field but also the signatures of wave motions in order to better understand coronal structure, solar activity, and the role of MHD waves in heating and accelerating the solar wind. Fortunately, the remote sensing instrumentation used to make magnetic field measurements is also well suited to measure the Doppler signature of waves in the solar structures. We present here a mission concept for the Waves And Magnetism In the Solar Atmosphere (WAMIS) experiment which is proposed for a NASA long-duration balloon flight.

KW - Sun: corona

KW - Sun: magnetic fields

KW - balloons

KW - instrumentation: polarimeters

UR - https://www.scopus.com/pages/publications/84937945822

U2 - 10.1017/S1743921315004639

DO - 10.1017/S1743921315004639

M3 - Article

AN - SCOPUS:84937945822

SN - 1743-9213

VL - 10

SP - 121

EP - 126

JO - Proceedings of the International Astronomical Union

JF - Proceedings of the International Astronomical Union

ER -

Waves and Magnetism in the Solar Atmosphere (WAMIS)

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Keywords

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