Solar Orbiter

EPD	Energetic Particle Detector
EUI	Extreme Ultraviolet Imager
MAG	Magnetometer
METIS	Coronagraph
PHI	Polarimetric and Helioseismic Imager
RPW	Radio and Plasma Waves
SoloHI	Heliospheric Imager
SPICE	Spectral Imaging of the Coronal Environment
STIX	X-ray Spectrometer/Telescope
SWPA	Solar Wind Plasma Analyser

Solar Orbiter (SolO) is a planned Sun-observing satellite, under development by the European Space Agency (ESA). The mission will be launched with an Atlas V from the Cape Canaveral AFS in Florida in October 2018. SolO is intended to perform detailed measurements of the inner heliosphere and nascent solar wind, and perform close observations of the polar regions of the Sun, which is difficult to do from Earth, both serving to answer the question 'How does the Sun create and control the heliosphere?'

The Solar Orbiter will make observations of the Sun from an eccentric orbit moving as close as ~60 solar radii (R_S), or 0.284 astronomical units (AU), placing it inside Mercury's perihelion of 0.3075 AU and providing it with the closest ever views of the Sun.^[4]

A comparison of the size of the Sun as seen from Earth (left, 1 AU) and from the Solar Orbiter spacecraft (0.284 AU,right)

This photo shows the Solar Orbiter structural thermal model shortly before leaving the Airbus Defence & Space facility in Stevenage, UK.

Scientific objectives

The spacecraft will make a close approach to the Sun every five months. Around closest approach Solar Orbiter will be positioned for several days over roughly the same region of the solar atmosphere like geostationary satellites are stationed over particular spots on the Earth's surface, so the spacecraft will seem to 'hover' for a while over the Sun. Solar Orbiter will therefore be able to watch magnetic activity building up in the atmosphere that can lead to powerful solar flare or eruptions.

Researchers will also have the chance to co-ordinate observations with NASA's planned Solar Probe Plus mission which will make in situ measurements in the Sun's extended corona.

The objective of the mission is to perform close-up, high-resolution studies of the Sun and its inner heliosphere. The new understanding will help answer these questions:

How and where do the solar wind plasma and magnetic field originate in the corona?
How do solar transients drive heliospheric variability?
How do solar eruptions produce energetic particle radiation that fills the heliosphere?
How does the solar dynamo work and drive connections between the Sun and the heliosphere?

Payload

Observation packages of baseline mission definitions:^[5]

Heliospheric in-situ instruments

Solar Wind Analyser (SWA): To measure solar wind properties and composition
Energetic Particle Detector (EPD): To measure suprathermal ions, electrons, neutral atoms, as well as energetic particles in the energy range from few keV/nuc to relativistic electrons and ions up to 100 MeV (protons) and 200 MeV/nuc (heavy ions)
Magnetometer (MAG): will provide detailed measurements of the magnetic field
Radio and Plasma Wave analyser (RPW): To measure magnetic and electric fields at high time resolution

Solar remote-sensing instruments

Polarimetric and Helioseismic Imager (PHI): To provide high-resolution and full-disk measurements of the photospheric magnetic field
EUV full-Sun and high-resolution Imager (EUI): To image various layers of the solar atmosphere
EUV spectral Imager (SPICE): To provide spectral imaging of solar disk and corona, characterize plasma properties at the Sun
Spectrometer/Telescope for Imaging X-rays (STIX): To provide imaging spectroscopy of thermal and non-thermal solar X-ray emission from 4 to 150 keV
Coronagraph (Metis): To provide simultaneous UV (121.6 nm), and polarized visible light imaging of the corona
Heliospheric Imager (SoloHI): To image quasi-steady and transient flows of the solar wind

Timeline and status

2012 April : €300M contract to build orbiter awarded to Astrium UK.^[6]
2014 June : Solar shield completes 2 week bake test.^[7]

References

1 2 3 4 5 "Solar Orbiter Mission". ESA eoPortal. Retrieved 2015-03-17.
↑ "Solar Orbiter - Development". NASA. March 3, 2015. Retrieved 2015-03-17.
↑ "NASA Selects United Launch Alliance Atlas V Rocket to Launch Solar Orbiter Mission". United Launch Alliance. Digital Journal. 18 March 2014. Retrieved 2014-03-19.
↑ KIS - Solar Orbiter
↑ Solar Orbiter overview (2013)
↑ "ESA contracts Astrium UK to build Solar Orbiter". April 2012.
↑ "Solar Orbiter's shield takes Sun's heat". June 2014.

External links

Solar space missions

Current	ACE GGS WIND Hinode (Solar-B) IRIS MinXSS PICARD RHESSI SOHO SDO SOLAR STEREO

Past	Apollo Telescope Mount ESRO 2B Genesis GOES 13 Helios Hinotori (Astro-A) IMP-8 Intercosmos 26 ISEE 1–3 Koronas-Foton Orbiting Solar Observatory OSO 1 OSO 2 OSO 3 OSO 4 OSO 5 OSO 6 OSO 7 OSO 8 Solwind Pioneer 5 Pioneer 6, 7, and 8 Prognoz 6 SolarMax Spartan 201 Taiyo (SRATS) TRACE Ulysses Yohkoh (Solar-A)

Planned	ADAHELI Aditya-1 Solar-C Solar Orbiter Solar Probe Plus Solar Sentinels

Cancelled	Pioneer H OSO J

Sun-Earth	SORCE SXI ACRIMSAT

European Space Agency

Spaceports	Guiana Space Centre Esrange

Launch vehicles	Ariane 5 Arianespace Soyuz Vega

Facilities	ESOC ESTEC ESRIN EAC ESAC ECSAT CDF ST-ECF

Communications	ESTRACK European Data Relay System

Programmes	Aurora Copernicus Sentinel Cosmic Vision EGNOS ELIPS ExoMars FLPP Galileo LPP Space Situational Awareness Programme

Predecessors	ELDO ESRO

Related topics	Arianespace ESA Television EUMETSAT European Space Camp GEWEX Planetary Science Archive

Projects and missions

Science

Solar physics	ISEE-2 (1977–1987) Ulysses (1990–2009) SOHO (1995–present) Cluster II (2000–present) Solar Orbiter (2017)

Planetary science	Giotto (1985–92) Huygens (1997–2005) SMART-1 (2003–06) Mars Express (2003–present) Rosetta/Philae (2004–2016) Venus Express (2005–2014) ExoMars Trace Gas Orbiter (2016–present) BepiColombo (2018) ExoMars rover (2020) Jupiter Icy Moons Explorer (2022)

Astronomy and cosmology	Cos-B (1975–82) IUE (1978–96) EXOSAT (1983–86) Hipparcos (1989–93) Hubble (1990–present) Eureca (1992–93) ISO (1995–98) XMM-Newton (1999–present) INTEGRAL (2002–present) COROT (2006–13) Planck (2009–13) Herschel (2009–13) Gaia (2013–present) CHEOPS (2017) James Webb (2018) Euclid (2020) PLATO (2024) ATHENA (2028) eLISA (2034)

Earth observation	Meteosat First Generation (1977–97) ERS-1 (1991–2000) ERS-2 (1995–2011) Meteosat Second Generation (2002–present) Envisat (2002–12) Double Star (2003–07) MetOp (2006–present) GOCE (2009–13) SMOS (2009–present) CryoSat-2 (2010–present) Swarm (2013–present) Sentinel-1 / 1A / 1B (2014–present) Sentinel-2 / 2A (2015–present) Sentinel-3 / 3A (2016–present) Sentinel-5 Precursor (2016) Meteosat Third Generation (Sentinel-4) (2017) ADM-Aeolus (2017) EarthCARE (2018) MetOp-SG-A (2021) SMILE (2021) MetOp-SG-B (2022) FLEX (2022)

ISS spaceflight

ISS contribution (1998–present)
Columbus (2008–present)
Jules Verne (2008)
Cupola (2010–present)
Johannes Kepler (2011)
Edoardo Amaldi (2012)
Albert Einstein (2013)
Georges Lemaître (2014)
European Robotic Arm (2017)

Telecommunications

GEOS 2 (1978)
Olympus-1 (1989–1993)
Artemis (2001–present)
GIOVE-A (2005–present)
GIOVE-B (2008–present)
HYLAS-1 (2010–present)
Galileo IOV (2011–present)
Galileo FOC (2014–present)
European Data Relay System (2016–present)

Technology
demonstrators

ARD (1998)
PROBA (2001–present)
YES2 (2007)
PROBA2 (2009–present)
Proba-V (2013–present)
IXV (2015)
LISA Pathfinder (2015–present)
OPS-SAT (2017)
Proba-3 (2018)
Lunar Lander (2018)
AIDA (2020)

Cancelled and proposed

Failed

Future missions in italics

Category
Commons
Wikinews
WikiProject

Future spaceflights

Manned

2017	Soyuz MS-04 (11 March) Soyuz MS-05 (May) Blue Origin New Shepard (Q2) Soyuz MS-06 (September) SpX-DM2 (November) Soyuz MS-07 (November)

2018	Soyuz MS-08 (March) Soyuz MS-09 (May) Boe-CST (August)

TBA	Orion EM-2 (2021) Orion EM-3 (2023) SpX-ITS (2024 for 1st Mars departure)

Unmanned

2016	Echostar 21 (22 December) ERG (20 December) Hard X-ray Modulation Telescope JCSAT-15 (20 December) Kounotori 6 (9 December) Resourcesat 2A (7 December) Star One D1 (20 December) WGS-8 (7 December)

2017	ADM-Aeolus ASNARO-2 Boe-OFT (April) Cygnus CRS OA-7 Space Complex Alpha Chang'e 5 CHEOPS Cygnus CRS OA-8E Formosat 5 GCOM-C / SLATS Hispasat AG1 ICESat-2 Kounotori 7 Kuafu LightSail 2 (March) Nano-JASMINE (December) Nauka (November) PRISMA Progress MS-05 (February) Progress MS-06 (May) Progress MS-07 (October) Sentinel-2B QZS-2 QZS-3 QZS-4 Sentinel-3 B Sentinel-5 Precursor SpaceX CRS-10 (January) SpaceX CRS-11 (March) SpaceX CRS-12 (June) SpaceX CRS-13 (September) Spektr-RG TESS (August) Tianzhou 1 TRICOM-1 WGS-9

2018	BepiColombo (April) Chandrayaan-2 Chang'e 4 Cygnus CRS OA-9E Cygnus CRS OA-10E EarthCARE GOSAT-2 / KhalifaSat InSight / Mars Cube One (5 May) James Webb Space Telescope (October) Kounotori 8 MicroDragon / RISESAT / OrigamiSat-1 / AOBA-VELOX-IV MX-1E Orion EM-1 (November) Lunar Flashlight NEA Scout BioSentinel SkyFire Lunar IceCube CuSP LunaH-Map EQUULEUS OMOTENASHI Progress MS-08 Progress MS-09 Progress MS-10 Progress MS-11 SpaceX Red Dragon SELENE-2 Solar Orbiter (October) Solar Probe Plus (31 July) SpaceX CRS-14 SpaceX CRS-15 SpaceX CRS-16 SpaceX CRS-17 SpaceX CRS-18 Uzlovoy Module (Q3)

2019	Aditya ALOS-3 JDRS Kounotori 9 Progress MS-12 SLIM (January-February) SpaceX CRS-19 SpaceX CRS-20

2020+	AIDA (October 2020, July 2021) B330 (2020) Chang'e 6 (2020) Chinese Mars Mission (2020) Euclid (2020) ExoMars rover / surface platform (July 2020) Hope (July 2020) Mars 2020 (2020) Spektr-UV (2021) MetOp-SG (2021–22) FLEX (2022) Jupiter Icy Moon Explorer (2022) Tiangong-3 (2022) PLATO (2024) Europa Multiple-Flyby Mission (2025) Luna-Glob (2025+) Venera-D (2025+) WFIRST (mid-2020s) ATHENA (2028) eLISA (2034)

Recently

Galileo FOC 7 / FOC 12 / FOC 13 / FOC 14 (17 November)
Soyuz MS-03 (17 November)
GOES-R (19 November)
Tianlian I (22 November)
Progress MS-04 (1 December)
Göktürk-1 (5 December)

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