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Journey 'Round the Sun: STEREO Science and Spacecraft Performance Results (2018)

Ossing, Daniel A. ; de Nolfo, Georgia A. ; Kucera, Therese A. ; [et al.]

In: CASI

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Publication Date: 2019-07-20

Description: The Solar TErrestrial RElations Observatory (STEREO) was originally designed as a two- to five-year heliocentric orbit mission to study coronal mass ejections (CMEs), solar energetic particles (SEPs), and the solar wind. After over ten years of continuous science data collection, the twin NASA STEREO observatories have significantly advanced the understanding of Heliophysics. This mission was the first to image CMEs all the way from the Sun to Earth and to observe the entire sphere of the Sun at one time. STEREO has demonstrated the importance of a point of view beyond the Sun-Earth line to significantly improve CME arrival time estimates and in understanding CME structure and trajectories and the longitudinal distribution of SEPs. STEREO was also the first to use one launch vehicle to insert two spacecraft into opposing heliocentric orbits, undergo a 3.5-month-long superior solar conjunction, implement unattended daily science operations on two deep space observatories, maintain 7 arcsec continuous pointing without gyros, and detect and attempt to recover a spacecraft after a 22-month long communications anomaly at a range of 2 AU (Astronomical Units). This paper discusses the significant performance results after the first ten years of operations of the STEREO mission from its journey around the Sun.

Keywords: Solar Physics

Type: GSFC-E-DAA-TN63025 , IEEE Aerospace Conference (AeroConf 2018); 4ý11 Mar. 2018; Big Sky, MT; United States

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Journey 'Round the Sun: STEREO Science and Spacecraft Performance Results (2018)

Kucera, Therese A. ; Quinn, David A. ; Ossing, Daniel A. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The Solar TErrestrial RElations Observatory (STEREO) was originally designed as a two to five year heliocentric orbit mission to study coronal mass ejections (CMEs), solar energetic particles (SEPs), and the solar wind. After over ten years of continuous science data collection, the twin NASA STEREO observatories have significantly advanced the understanding of Heliophysics. This mission was the first to image CMEs all the way from the Sun to Earth and to observe the entire sphere of the Sun at one time. STEREO has demonstrated the importance of a point of view beyond the Sun-Earth line to significantly improve CME arrival time estimates and in understanding CME structure and trajectories and the longitudinal distribution of SEPs. STEREO was also the first to use one launch vehicle to insert two spacecraft into opposing heliocentric orbits, undergo a 3.5 month long superior solar conjunction, implement unattended daily science operations on two deep space observatories, maintain 7 arcsec continuous pointing without gyros, and detect and attempt to recover a spacecraft after a 22-month long communications anomaly at a range of 2 AU. This paper discusses the significant performance results after the first ten years of operations of the STEREO mission from its journey around the Sun.

Keywords: Astronomy; Solar Physics

Type: GSFC-E-DAA-TN49226 , 2018 IEEE Aerospace Conference; Mar 03, 2018 - Mar 10, 2018; Big Sky, MT; United States

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The Solar Neutron TRACking (SONTRAC) Instrument for the Detection of Fast Neutrons (2019)

Legere, Jason ; Bruno, Alessandro ; de Nolfo, Georgia A. ; [et al.]

In: CASI

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Publication Date: 2019-12-27

Description: The detection of fast neutrons has important applications in several fields including solar, Geospace and planetary physics. Neutrons are challenging to detect and measurements of them typically suffer from high background rates. High-energy neutrons (〉50 MeV) pose even more challenges, because the traditional double-scatter technique based on a time-of-flight (ToF) measurement is limited by short flight paths and small detector sizes characteristic of small satellite platforms. It is now possible to perform high-energy neutron measurements inside a large monolithic detector by imaging the recoil proton tracks, thus eliminating the need for a measure of the time-of-flight. The concept is based on a spectrometer assembled from numerous thin hydrogenous scintillating fibers that allow ionization track imaging. Fine grained readout is now possible with arrays of1-mm pitch silicon photomultipliers (SiPMs). The Solar Neutron TRACking (SONTRAC) instrument, equipped with scintillating fibers readout with SiPMs sensors, provides high-resolution, fine grained, imaging of fast (between 20-200 MeV) neutron scatters in a compact, low-power design ideal for small satellite(and aircraft) platforms. We discuss below applications of this technology and performance characteristics of the prototype SONTRAC instrument.

Keywords: Astrophysics

Type: GSFC-E-DAA-TN72138 , IEEE Nuclear Science Symposium &amp; Medical Imaging Conference; Oct 26, 2019 - Nov 02, 2019; Manchester, England; United Kingdom

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