HENON
HENON, or the HEliospheric pioNeer for sOlar and interplanetary threats defeNce, is a planned space weather and technology demonstration mission by the European Space Agency (ESA). It will be ESA's first stand-alone deep space CubeSat. The goal of the mission is to demonstrate solar storm forecasting capabilities with 3–6 hours of advance warning before a storm reaches Earth, a considerable improvement compared to the current warning time. The launch of HENON is planned for the end of 2026.[1][2][3]
Background
[edit]HENON is funded through the Element 3 of the ESA's General Support Technology Programme (GSTP),[4] which supports In Orbit Demonstration of new technologies. These missions combine technology demonstration with practical applications. The missions's prime contractor is Argotec in Italy.[1]
Technologies and instruments
[edit]HENON's electric propulsion system is being developed by a UK consortium led by Mars Space. A miniature X-band space transponder and a solar array drive assembly are being developed by IMT in Italy. The spacecraft's power conditioning & distribution unit is being developed by Argotec.[1] The xenon gas gridded ion engine is similar to the one used on the BepiColombo mission to Mercury, though miniaturised for CubeSat applications.[5]
The mission will demonstrate new miniaturised scientific instruments for space weather observations including a radiation particle telescope, magnetometer, and a Faraday Cup for measuring the solar wind properties:[1]
- MAGIC Magnetometer[6] mounted on a 1-meter long boom
- will measure the magnetic field in deep space to enhance space weather predictions
- provided by Imperial College London, UK
- these sensors will be also used on the Lunar Gateway[7]
- REPE Payload
- will measure directional proton and electron fluxes
- provided by ASRO and Space Research Laboratory, Turku University, Finland
- Faraday Cup Analyser[8]
- will take solar wind measurements including ion vector velocity and ion flux
- provided by Charles University in Czechia
Mission profile
[edit]HENON will be launched together with another larger spacecraft to the Sun-Earth Lagrange point 2. Then, it will use its own electric propulsion system to fly to a Distant Retrograde Orbit (DRO) of the Sun-Earth system. In this orbit, it will be passing upstream of Earth on the sunward side and get 10x nearer the Sun compared to a spacecraft in Lagrange point 1.[1]
Timeline
[edit]- In March 2025, HENON entered into Phase C2D of its development. Many technical risks identified in its Preliminary Design Review have been resolved and the mission can move towards the Critical Design Review planned for August 2025.[1]
- In April 2025, ESTEC was testing the gridded ion engine thruster for HENON.[5]
See also
[edit]References
[edit]- ^ a b c d e f "ESA's first stand-alone Deep Space CubeSat signs new phase". www.esa.int. Retrieved 2025-04-03.
- ^ Kulu, Erik. "HENON". Nanosats Database. Retrieved 2025-04-03.
- ^ HEliospheric pioNeer for sOlar and interplanetary threats defeNce, E. M. Alessi et al.
- ^ "About the General Support Technology Programme (GSTP)". www.esa.int. Retrieved 2025-04-03.
- ^ a b "Firing up HENON's engine". www.esa.int. Retrieved 2025-04-03.
- ^ Eastwood, J. P.; Kataria, D. O.; McInnes, C. R.; Barnes, N. C.; Mulligan, P. (2015). "Sunjammer". Weather. 70 (1): 27–30. Bibcode:2015Wthr...70...27E. doi:10.1002/wea.2438. ISSN 0043-1656.
- ^ "A fall of CubeSats". www.esa.int. Retrieved 2025-04-03.
- ^ Přech, Lubomír; Šafránková, Jana; Němeček, Zdeněk; Čermák, Ivo; Ďurovcová, Tereza; Marcucci, Maria Federica; Laurenza, Monica; Calgano, Davide (2024). Faraday cup instrument for the solar wind monitoring at 0.9 AU — HENON mission (Report). Copernicus Meetings. doi:10.5194/egusphere-egu24-10847.