Resources to educate students, teachers, and the general public about meteorology, space science, earth-observing satellites, weather phenomena and benefits GOES-R will provide to society.
Information and resources to ensure that the user community is prepared for the new types of satellite imagery and data that will be available from the GOES-R satellite series.
The Space Environment In-Situ Suite (SEISS) will consist of an array of sensors that will monitor the proton, electron, and heavy ion fluxes at geosynchronous orbit. The information provided by the SEISS is critical for assessing the radiation hazard to astronauts and satellites. In addition to hazard assessment, the information from the SEISS can be used to warn of high flux events, mitigating any damage to radio communication.
The SEISS instrument suite consists of the Energetic Heavy Ion Sensor (EHIS), the Magnetospheric Particle Sensor -High and Low (MPS-HI and MPS-LO), and the Solar and Galactic Proton Sensor (SGPS). Data from SEISS will drive solar radiation storm portion of NOAA space weather scales and other alerts and warnings and will improve energetic particle forecasts.
Electrons will be measured on GOES-R over the range of 30 eV to 4 MeV. Protons will be measured on GOES-R over the range 80 kev to 500 MeV and over 500 MeV as compared to the GOES-N measurement range of 80 KeV to 700 MeV. GOES-R will measure four solar ion mass groups: He, C-N-O, Ne-S, and Fe from 10 Mec/nucleon to 200 Mev/nucleon by comparison, GOES-N measures only alpha particles.
SEISS Brassboard
EHIS:
Energetic Heavy Ion Sensor
SGPS:
Solar and Galactic Proton Sensor
DPU:
Data Processing Unit
MPS-LO:
Magnetospheric Particle Sensor - Low Energy Range
MPS-HI:
Magnetospheric Particle Sensor - High Energy Range