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The High Inclination Solar Mission

Authors :
Kobayashi, K.
Johnson, L.
Thomas, H.
McIntosh, S.
McKenzie, D.
Newmark, J.
Heaton, A.
Carr, J.
Baysinger, M.
Bean, Q.
Fabisinski, L.
Capizzo, P.
Clements, K.
Sutherlin, S.
Garcia, J.
Medina, K.
Turse, D.
Publication Year :
2020

Abstract

The High Inclination Solar Mission (HISM) is a concept for an out-of-the-ecliptic mission for observing the Sun and the heliosphere. The mission profile is largely based on the Solar Polar Imager concept: initially spiraling in to a 0.48 AU ecliptic orbit, then increasing the orbital inclination at a rate of $\sim 10$ degrees per year, ultimately reaching a heliographic inclination of $>$75 degrees. The orbital profile is achieved using solar sails derived from the technology currently being developed for the Solar Cruiser mission, currently under development. HISM remote sensing instruments comprise an imaging spectropolarimeter (Doppler imager / magnetograph) and a visible light coronagraph. The in-situ instruments include a Faraday cup, an ion composition spectrometer, and magnetometers. Plasma wave measurements are made with electrical antennas and high speed magnetometers. The $7,000\,\mathrm{m}^2$ sail used in the mission assessment is a direct extension of the 4-quadrant $1,666\,\mathrm{m}^2$ Solar Cruiser design and employs the same type of high strength composite boom, deployment mechanism, and membrane technology. The sail system modelled is spun (~1 rpm) to assure required boom characteristics with margin. The spacecraft bus features a fine-pointing 3-axis stabilized instrument platform that allows full science observations as soon as the spacecraft reaches a solar distance of 0.48 AU.

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2006.03111
Document Type :
Working Paper