Proba-3
| Mission type |
Solar observatory technology demonstrator | ||||
|---|---|---|---|---|---|
| Operator | ESA | ||||
| Website | link | ||||
| Mission duration | 2 years (nominal) | ||||
| Spacecraft properties | |||||
| Manufacturer | SENER/QinetiQ/EADS CASA/GMV/SPACEBEL | ||||
| Launch mass |
CSC: 339 kilograms (747 lb) OSC: 211 kilograms (465 lb) | ||||
| Dry mass |
CSC: 327 kilograms (721 lb) OSC: 190 kilograms (420 lb) | ||||
| Dimensions |
CSC: 1.1 by 1.8 by 1.7 metres (3.6 ft × 5.9 ft × 5.6 ft) OSC: 0.9 by 1.4 metres (3.0 ft × 4.6 ft) | ||||
| Start of mission | |||||
| Launch date | 2019 | ||||
| Rocket | Vega | ||||
| Launch site | Kourou ELV | ||||
| Contractor | Arianespace | ||||
| Orbital parameters | |||||
| Reference system | Geocentric | ||||
| Regime | Highly-elliptical Earth Orbit | ||||
| Semi-major axis | 36,943 kilometres (22,955 mi) | ||||
| Eccentricity | 0.8111 | ||||
| Perigee | 600 kilometres (370 mi) | ||||
| Apogee | 60,530 kilometres (37,610 mi) | ||||
| Inclination | 59 degrees | ||||
| Period | 1178 minutes | ||||
| RAAN | 84 degrees | ||||
| Argument of perigee | 188 degrees | ||||
| Epoch | planned | ||||
| Main interferometer | |||||
| Name | ASPIICS | ||||
| Type | Fabry–Pérot interferometer | ||||
| Diameter | 50 millimetres (2.0 in) | ||||
| Focal length | 1.15 metres (3.8 ft) | ||||
| Wavelengths | visible light | ||||
| |||||
PROBA-3 is the third satellite mission in the European Space Agency's series of PROBA low-cost satellites that are being used to validate new spacecraft technologies while also carrying scientific instruments. Currently PROBA-3 is in its preparatory study phase.[1] PROBA-3 will show the technology that is required for formation flying of two or more spacecraft.
PROBA-3 will be composed of two independent, three-axis stabilized spacecraft flying close to one another with the ability to accurately control the attitude and separation of the two craft. The spacecraft pair will fly a highly elliptical orbit divided between periods of accurate formation flying, when payload operations will be possible, and periods of free flight. The length of the formation control period will be the result of a trade-off involving the amount of fuel needed to maintain the orbits when in formation.[2]
The primary mission of PROBA-3 is solar coronagraphy by using the telescope on the larger of the two satellites to view the Sun's corona while the other spacecraft is maneuvered to accurately occult the disc of the Sun.[3]
Currently, PROBA-3 is scheduled to be launched in 2018.[4][5] The mission is planned to have a lifetime of around two years.
See also
References
- ↑ "Proba-3: ESA's first step towards formation flying". Phys.org. 8 August 2006. Retrieved 30 November 2015.
- ↑ "Mission / Proba 3". ESA. 13 November 2014. Retrieved 30 November 2015.
- ↑ "Science Payload / Proba 3". ESA. 13 November 2014. Retrieved 30 November 2015.
- ↑ "ESA Bulletin 160 (November 2014)" (PDF). ESA. November 2014. p. 61. ISSN 0376-4265. Retrieved 30 November 2015.
- ↑ "About Proba-3". ESA. 13 November 2014. Retrieved 30 November 2015.
External links
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