During late 2019 and early 2020, the Advanced Concepts Office design team at NASA’s George C. Marshall Space Flight Center (MSFC) completed a concept study for a Solar Polar Imager (SPI) mission. The goal of the study was to perform a preliminary design of the spacecraft bus containing a minimum set of science instruments and supporting subsystems. The science goal of the SPI mission is to better understand the Sun and the heliosphere by observing the Sun from a high heliographic latitude. A highly inclined orbit (of 75°) allows helioseismology observations from a high latitude, providing measurements in the high latitude regions for the first time. The orbit also allows measurements of the photospheric magnetic fields in the polar regions, as well as direct measurements of the heliospheric magnetic field and solar wind. The high latitude gives the spacecraft a unique top-down view of coronal mass ejections (CMEs) that could affect space weather around Earth and allow the velocity and directions of these CMEs to be better quantified. Solar sail technology is chosen as the propulsion option necessary to deliver the spacecraft to a heliocentric circular orbit at 0.48 AU and an inclination of 75°. The sail area is restricted to 7000 m2, the maximum size that can be developed in the near term. The sail is also assumed to rotate at 1 rpm to avoid buckling of the supporting booms. The total launch mass is 349 kg, which consists of 233 kg for the SPI Bus, 52 kg for the solar sail and deployment mechanisms, and 64 kg for the Spin-up Bus/launch vehicle payload adapter. Dropping the Spin-up Bus after sail deployment, the characteristic acceleration of the sail is about 0.22 mm/s2. The resulting total mission time is just over 13 years, which includes a 3-year duration at the 75° inclination.


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    Titel :

    Solar Polar Imager Concept


    Beteiligte:
    Dan Thomas (Autor:in) / Michael Baysinger (Autor:in) / Steven Sutherlin (Autor:in) / Quincy Bean (Autor:in) / Keith Clements (Autor:in) / Ken Kobayashi (Autor:in) / Jay Garcia (Autor:in) / Leo Fabisinski (Autor:in) / Pete Capizzo (Autor:in)

    Kongress:

    AIAA Ascend Conference ; 2020 ; Virtual, US


    Medientyp :

    Aufsatz (Konferenz)


    Format :

    Keine Angabe


    Sprache :

    Englisch




    Solar Polar Imager Concept

    Thomas, Dan / Kobayashi, Ken / Mike, Baysinger et al. | AIAA | 2020


    Solar Polar Imager Concept

    Dan Thomas / Ken Kobayashi / Steven Sutherlin et al. | NTRS



    Solar Sail Trajectory Optimization for the Solar Polar Imager (SPI) Mission

    Dachwald, Bernd / Ohndorf, Andreas / Wie, Bong | AIAA | 2006