CubeSat for Solar Particles
| Names | CuSP |
|---|---|
| Mission type | Technology demonstration, reconnaissance |
| Operator | Southwest Research Institute (SwRI) |
| Spacecraft properties | |
| Spacecraft | CubeSat |
| Spacecraft type | 6U CubeSat |
| Manufacturer | Southwest Research Institute (SwRI) |
| Launch mass | 14 kg (31 lb) |
| Dimensions | 10 cm × 20 cm × 30 cm |
| Start of mission | |
| Launch date | 12 March 2022 (planned) |
| Rocket | SLS Block 1 |
| Launch site | KSC, LC-39B |
| Contractor | NASA |
| Orbital parameters | |
| Reference system | Heliocentric orbit |
| Flyby of Moon | |
| Main telescope | |
| Name | Miniaturized Electron and Proton Telescope (MERiT) |
| Instruments | |
| Suprathermal Ion Spectrograph (SIS) Miniaturized Electron and Proton Telescope (MERiT) Vector Helium Magnetometer (VHM) | |
CubeSat for Solar Particles (CuSP) is a planned nanosatellite spacecraft that will study the dynamic particles and magnetic fields that stream from the Sun.[1][2]
CuSP is a low-cost 6U CubeSat nanosatellite that once deployed, will orbit the Sun, measuring incoming radiation that can create a wide variety of effects at Earth, from interfering with radio communications to tripping up satellite electronics to creating electric currents in power grids. The principal investigator for CuSP is Mihir Desai, at the Southwest Research Institute (SwRI) in San Antonio, Texas.[1] It will fly on the maiden flight of the Space Launch System (SLS), as a secondary payload of the Artemis 1 mission planned to launch in 2022.[3][4]
Objective[]
To create a network of space weather stations would require many instruments scattered throughout space millions of miles apart, but the cost of such a system is prohibitive.[1] Though the CubeSats can only carry a few instruments, they are relatively inexpensive to launch because of their small mass and standardized design. So, CuSP also serves as a test for creating a network of space science stations.[1]
Payload[]
This CubeSat will carry three scientific instruments:[1][2]
- The Suprathermal Ion Spectrograph (SIS), is built by the Southwest Research Institute to detect and characterize low-energy solar energetic particles.
- Miniaturized Electron and Proton Telescope (MERiT), will return counts of high-energy solar energetic particles.
- Vector Helium Magnetometer (VHM), being built by NASA's Jet Propulsion Laboratory, will measure the strength and direction of magnetic fields.
- Propulsion
The satellite features a cold gas thruster system for propulsion, attitude control (orientation) and orbital maneuvering.[5]
See also[]
- The 10 CubeSats flying in the Artemis 1 mission
- Near-Earth Asteroid Scout by NASA is a solar sail spacecraft that will encounter a near-Earth asteroid
- BioSentinel is an astrobiology mission
- LunIR by Lockheed Martin Space
- Lunar IceCube, by the Morehead State University
- CubeSat for Solar Particles (CuSP)
- Lunar Polar Hydrogen Mapper (LunaH-Map), designed by the Arizona State University
- EQUULEUS, submitted by JAXA and the University of Tokyo
- OMOTENASHI, submitted by JAXA, is a lunar lander
- ArgoMoon, designed by Argotec and coordinated by Italian Space Agency (ASI)
- Team Miles, by Fluid and Reason LLC, Tampa, Florida
- The 3 CubeSat missions removed from Artemis 1
- Lunar Flashlight will map exposed water ice on the Moon
- Cislunar Explorers, Cornell University, Ithaca, New York
- Earth Escape Explorer (CU-E3), University of Colorado Boulder
References[]
- ^ a b c d e "Heliophysics CubeSat to Launch on NASAs SLS". NASA. 2 February 2016. Retrieved 9 March 2021.
This article incorporates text from this source, which is in the public domain.
- ^ a b Messier, Doug (5 February 2016). "SwRI CubeSat to Explore Deep Space". Parabolic ARC. Retrieved 9 March 2021.
- ^ Harbaugh, Jennifer (23 July 2021). "Artemis I CubeSats will study the Moon, solar radiation". NASA. Retrieved 22 October 2021.
- ^ Clark, Stephen (12 October 2021). "Adapter structure with 10 CubeSats installed on top of Artemis moon rocket". Spaceflight Now. Retrieved 23 October 2021.
- ^ "CuSP Propulsion System". VACCO Propulsion Systems. 2017. Retrieved 12 March 2021.
This article incorporates text from this source, which is in the - CubeSats
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