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Solar Dynamics Observatory
Orbital elements

Operator	NASA / Goddard Space Flight Center
Mission type	Orbiter
Launch date	2010-02-11 15:23:00 UTC
Carrier rocket	Atlas V 401
Launch site	Space Launch Complex 41 Cape Canaveral Air Force Station
Mission duration	5 - 10 years elapsed: 3 years, 3 months, and 7 days
COSPAR ID	2010-005A
Homepage	http://sdo.gsfc.nasa.gov
Mass	payload: 290 kg (640 lb) fuel: 1,400 kg (3,100 lb) total: 3,100 kg (6,800 lb)
Regime	Geosynchronous orbit
Inclination	28°
Longitude	102° W
Instruments
Spectral band	<.1 nm
Data rate	130 Mbps on the 26 GHz K_a band 150 million bits/second
References: ^[1]^[2]

The detailed images recorded by SDO in 2011–12 have helped scientists uncover new secrets about the sun.

The Solar Dynamics Observatory (SDO) is a NASA mission which will observe the Sun for over five years.^[3] Launched on February 11, 2010, the observatory is part of the Living With a Star (LWS) program.^[4] The goal of the LWS program is to develop the scientific understanding necessary to effectively address those aspects of the connected Sun–Earth system directly affecting life and society. The goal of the SDO is to understand the influence of the Sun on the Earth and near-Earth space by studying the solar atmosphere on small scales of space and time and in many wavelengths simultaneously. SDO will investigate how the Sun's magnetic field is generated and structured, how this stored magnetic energy is converted and released into the heliosphere and geospace in the form of solar wind, energetic particles, and variations in the solar irradiance.^[5]

1 General
2 Communications
3 Launch
- 3.1 Orbit
4 Camilla
5 Image gallery
6 See also
7 References
8 External links
- 8.1 Instruments

General [edit]

This visualization covers the same time span of 17 hours over the full wavelength range of the SDO.

The SDO spacecraft was assembled and tested at NASA's Goddard Space Flight Center in Greenbelt, Maryland, and launched on February 11, 2010, from Cape Canaveral Air Force Station. The primary mission is scheduled to last five years and three months, with expendables expected to last for ten years.^[6] Some consider SDO to be a follow-on mission to the Solar and Heliospheric Observatory (SOHO).^[7]

SDO is a 3-axis stabilized spacecraft, with two solar arrays, and two high-gain antennas. The spacecraft includes three instruments: the Extreme Ultraviolet Variability Experiment (EVE) built in partnership with the University of Colorado at Boulder's Laboratory for Atmospheric and Space Physics (LASP), the Helioseismic and Magnetic Imager (HMI) built in partnership with Stanford University, and the Atmospheric Imaging Assembly (AIA) built in partnership with the Lockheed Martin Solar & Astrophysics Laboratory. Data which is collected by the craft will be made available as soon as possible, after it is received.^[8]

Helioseismic and Magnetic Imager (HMI) [edit]

Comparison of HMI Continuum images immediately after an eclipse, and then after the sensor has re-warmed.

The Helioseismic and Magnetic Imager (HMI), led from Stanford University in Stanford, California, studies solar variability and characterizes the Sun's interior and the various components of magnetic activity. HMI produces data to determine the interior sources and mechanisms of solar variability and how the physical processes inside the Sun are related to surface magnetic field and activity. It also produces data to enable estimates of the coronal magnetic field for studies of variability in the extended solar atmosphere. HMI observations will enable establishing the relationships between the internal dynamics and magnetic activity in order to understand solar variability and its effects.^[9] HMI will take high-resolution measurements of the longitudinal and vector magnetic field over the entire visible solar disk thus extending the capabilities of the SOHO's MDI instrument.^[10]

Extreme Ultraviolet Variability Experiment (EVE) [edit]

Extreme Ultraviolet Variability Experiment logo

The Extreme Ultraviolet Variability Experiment (EVE), will measure the Sun's extreme ultraviolet irradiance with improved spectral resolution, "temporal cadence", accuracy, and precision over preceding measurements made by TIMED SEE, SOHO, and SORCE XPS. The instrument incorporates physics-based models in order to further scientific understanding of the relationship between solar EUV variations and magnetic variation changes in the Sun.^[11]

The Sun's output of energetic extreme ultraviolet photons is primarily what heats the Earth's upper atmosphere and creates the ionosphere. Solar EUV radiation output undergoes constant changes, both moment to moment and over the Sun's 11-year solar cycle, and these changes are important to understand because they have a significant impact on atmospheric heating, satellite drag, and communications system degradation, including disruption of the Global Positioning System.^[12]

The EVE instrument package was built by the University of Colorado at Boulder's Laboratory for Atmospheric and Space Physics, with Dr. Tom Woods as Principal Investigator,^[6] and was delivered to Goddard Space Flight Center on September 7, 2007.^[13] The instrument provides improvements of up to 70 percent in spectral resolution measurements in the wavelengths below 30 nm, and a 30 percent improvement in "time cadence" by taking measurements every 10 seconds over a 100 percent duty cycle.^[12]

Atmospheric Imaging Assembly (AIA) [edit]

It has been suggested that SDO AIA temperatures be merged into this article. (Discuss) Proposed since December 2012.

The Atmospheric Imaging Assembly (AIA), led from the Lockheed Martin Solar and Astrophysics Laboratory (LMSAL), provides continuous full-disk observations of the solar chromosphere and corona in seven extreme ultraviolet (EUV) channels, spanning a temperature range from approximately 20,000 Kelvin to in excess of 20 million Kelvin. The 12-second cadence of the image stream with 4096 by 4096 pixel images at 0.6 arcsec/pixel provides unprecedented views of the various phenomena that occur within the evolving solar outer atmosphere.

The AIA science investigation is led by LMSAL, which also operates the instrument and - jointly with Stanford University - runs the Joint Science Operations Center from which all of the data are served to the worldwide scientific community, as well as the general public. LMSAL designed the overall instrumentation and led its development and integration. The four telescopes providing the individual light feeds for the instrument were designed and built at the Smithsonian Astrophysical Observatory (SAO).^[14] Since beginning its operational phase on 2010/05/01, AIA has operated successfully, with unprecedented EUV image quality.

AIA Wavelength Channel	Source^[15]	Region of solar atmosphere	Characteristic Temperature
White Light	continuum	Photosphere	5000 K
170 nm	continuum	Temperature minimum, photosphere	5000 K
30.4 nm	He II	Chromosphere & transition region	50,000 K
160 nm	C IV + continuum	Transition region & upper photosphere	10⁵ & 5000 K
17.1 nm	Fe IX	Quiet corona, upper transition region	6.3×10⁵ K
19.3 nm	Fe XII, XXIV	Corona & hot flare plasma	1.2×10⁶ & 2x10⁷ K
21.1 nm	Fe XIV	Active region corona	2×10⁶ K
33.5 nm	Fe XVI	Active region corona	2.5×10⁶ K
9.4 nm	Fe XVIII	Flaring regions	6.3×10⁶ K
13.1 nm	Fe VIII, XX, XXIII	Flaring regions	4×10⁵, 10⁷ & 1.6×10⁷ K

Photographs of the sun in these various spectras can be seen at NASAs SDO Data-website http://sdo.gsfc.nasa.gov/data.^[16] Images and movies of the Sun seen on any day of the mission, including within the last half hour, can be found at http://sdowww.lmsal.com/suntoday/.^[17]

Communications [edit]

The insignia of the SDO.

SDO down-links science data (K-band) from its two onboard high-gain antennas, and telemetry (S-band) from its two onboard omnidirectional antennas. The ground station consists of two dedicated (redundant) 18-meter radio antennas in White Sands Missile Range, New Mexico, constructed specifically for SDO. Mission controllers operate the spacecraft remotely from the Mission Operations Center at NASA's Goddard Space Flight Center. The combined data rate is about 130 Mbit/s (150 Mbit/s with overhead, or 300 Msymbols/s with rate 1/2 convolutional encoding), and the craft generates approximately 1.5 terabytes of data per day (equivalent to downloading around 500,000 songs).^[6]

Launch [edit]

Attempt	Planned	Result	Turnaround	Reason	Decision point	Weather go (%)	Notes
1	2010-02-10 15:26 UTC !10 Feb 2010, 3:26:00 pm	Scrubbed	---	Weather (high winds) ^[18]	2010-02-10 11:26 EST !10 Feb 2010, 4:26 pm(T-3:59, immediately after T-4:00 hold)	40%^[19]	window 10:26 to 11:26a EST, attempts made at 10:26, 10:56 and 11:26
2	2010-02-11 15:23 UTC !11 Feb 2010, 3:23:00 pm	Success	0 days, 23 hours, 57 minutes			60%^[19]	Window: 10:23 to 11:23a EST

The launch Thursday, 11 February 2010 15:23:00 UTC (10:23 a.m. EST)

Orbit [edit]

After launch, the spacecraft was placed into an orbit around the Earth with an initial perigee of about 2,500 kilometres (1,600 mi). SDO then underwent a series of orbit-raising maneuvers which adjusted its orbit until the spacecraft reached its planned circular, geosynchronous orbit at an altitude of 36,000 kilometres (22,000 mi), at 102° W longitude, inclined at 28.5°.^[22]

Camilla [edit]

Camilla Corona is a rubber chicken (similar to a children's toy), and is the mission mascot for NASA's Solar Dynamics Observatory (SDO). It is part of the Education and public outreach team and assists with various functions to help educate the public, mainly children, about the SDO mission, facts about the Sun and space weather.^{[citation needed]} Camilla also assists in cross-informing the public about other NASA missions and space related projects. Camilla Corona SDO uses social media to interact with fans.

Image gallery [edit]

Camilla Corona SDO.

SDO 3-D schematic.

SDO Instruments.

SDO ready to be placed on Atlas rocket for launch.

An animation showing the deployment of SDO.

First light image from the SDO showing a prominence eruption.

An image of the 2012 Transit of Venus taken by SDO.

References [edit]

^ Dean Pesnell; Kevin Addison (5 February 2010). "SDO - Solar Dynamics Observatory: SDO Specifications". NASA. Retrieved 2010-02-13.
^ "SDO Our Eye on the Sun" (.PDF). NASA. Retrieved 2010-02-13.
^ Bourkland, Kristin L.; Liu, Kuo-Chia. "Verification of the Solar Dynamics Observatory High Gain Antenna Pointing Algorithm Using Flight Data". American Institute of Aeronautics and Astronautics. NASA Technical Reports Server. Retrieved 14 September 2011.
^ Justin Ray. "Mission Status Center: Atlas 5 SDO". Spaceflight Now. Retrieved 2010-02-13.
^ Dean Pesnell; Kevin Addison (5 February 2010). "SDO - Solar Dynamics Observatory: About The SDO Mission". NASA. Retrieved 2010-02-13.
^ ^a ^b ^c "Solar Dynamics Observatory — Our Eye on the Sky" (.PDF). NASA. Retrieved February 13, 2010.
^ "Solar and Heliospheric Observatory Homepage". ESA / NASA. February 9, 2010. Retrieved February 13, 2010.
^ "Solar Dynamics Observatory — Exploring the Sun in High Definition" (PDF). NASA. Retrieved February 13, 2010.
^ Solar Physics Research Group. "Helioseismic and Magnetic Imager Investigation". Stanford University. Retrieved 2010-02-13.
^ Dean Pesnell; Kevin Addison (5 February 2010). "SDO - Solar Dynamics Observatory: SDO Instruments". NASA. Retrieved 2010-02-13.
^ "SDO - EVE-Extreme ultraviolet Variability Experiment". University of Colorado at Boulder Laboratory for Atmospheric and Space Physics. May 12, 2008. Retrieved February 13, 2010.
^ ^a ^b Woods, Tom. "Extreme Ultraviolet Variability Experiment (EVE) on the Solar Dynamics Observatory (SDO)" (.PDF). University of Colorado at Boulder Laboratory for Atmospheric and Space Physics. Retrieved 22 September 2011.
^ Rani Gran (7 September 2009). "First Solar Dynamic Observatory (SDO) Instrument Arrives at NASA Goddard Space Flight Center". Goddard Space Flight Center. Retrieved 2010-02-17.
^ "AIA – Atmospheric Imaging Assembly". Lockheed Martin. 3 February 2010. Retrieved 2010-02-14.
^ "AIA – Atmospheric Imaging Assembly". Retrieved 2012-06-27.
^ SDO - Solar Dynamics Observatory
^ The Sun Today
^ Dunn, Marcia. "Stiff wind delays NASA launch of solar observatory". The Associated Press. Retrieved 10 February 2010.
^ ^a ^b "AFD-070716-027". United States Airforce, 45th Weather Squadron. Retrieved 7 February 2010.
^ "A New Eye on the Sun" (Press release). NASA. Retrieved February 13, 2010.
^ "SDO Launch Services Program" (PDF). Retrieved February 13, 2010.
^ Wilson, Jim (February 11, 2010). "NASA — Solar Dynamics Observatory". Retrieved February 13, 2010.

External links [edit]

Wikimedia Commons has media related to: Solar Dynamics Observatory

Solar Dynamics Observatory (SDO) mission website
Where is the Solar Dynamics Observatory (SDO) right now?
SDO Outreach Material, HELAS
Inbound SOHO comet disintegrates as seen in SDO AIA images (Cometal July 14, 2011)
History of SDO patch, Facebook

Instruments [edit]

v t e Solar space missions

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

Future	Aditya-1 IRIS SOLAR-C SOLAR-D Solar Orbiter Solar Probe Plus Solar Sentinels

Completed	Apollo Telescope Mount ESRO 2B Genesis GOES 13 Helios Hinotori 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 9 Prognoz 6 SolarMax Spartan 201 Taiyo Ulysses Yohkoh (Solar-A)

On hiatus	Pioneer 6, 7, and 8 TRACE

Sun-Earth	SORCE SXI ACRIMSAT

v t e Space observatories

Current	AGILE AMS-02 Chandra COROT Fermi GALEX Hinode (Solar-B) HiRISE Hubble IBEX INTEGRAL Kepler MAXI MOST NEOSSat NuSTAR Odin PAMELA Planck UniBRITE-1 R/HESSI SDO SOHO SOLAR Spektr-R Spitzer Suzaku (Astro-EII) Swift XMM-Newton

Planned	Astrosat (2013) IRIS (2013) BRITE Constellation (2013+) GAIA (2013) SPRINT-A (2013) Nano-JASMINE (2013) Astro-H (2014) Spektr-RG (2014) HXMT (2014–2016) World Space Observatory (2016) NICER (2016) CHEOPS (2017) TESS (2017) James Webb (JWST) (2018+) SOLAR-C (2019) Euclid (2020) Space Solar Telescope

Proposals	ATHENA ATLAST EChO EXCEDE LOFT Fresnel Imager FINESSE Hypertelescope New Worlds Mission NGO NRO donation to NASA PLATO SPICA SOLAR-D THEIA WFIRST

Completed	Akari (Astro-F) (2006–2011) ALEXIS (1993–2005) ATM (1973–1974) ASCA (Astro-D) (1993–2000) Astro-1 (BBXRT HUT) (1990) Astro-2 (HUT) (1995) Astron (1983–1989) ANS (1974–1976) ATM (1973–1974) BeppoSAX (1996–2003) CHIPSat (2003–2008) Compton (CGRO) (1991–2000) Cos-B (1975–1982) COBE (1989–1993) EPOCh (2008) EPOXI (2010) EXOSAT (1983–1986) EUVE (1992–2001) FUSE (1999–2007) Kvant-1 (1987–2001) Kristall (1990–2001) Ginga (Astro-C) (1987–1991) Granat (1989–1998) Hakucho (1979–1985) HALCA (1997–2005) HEAO-1 (1977–1979) Herschel (2009–2013) Hinotori (Astro-A) (1981–1991) HEAO-2 (Einstein Obs.) (1978–1982) HEAO-3 (1979–1981) HETE-2 (2000–2007?) Hipparcos (1989–1993) IUE (1978–1996) IRAS (1983) ISO (1996–1998) IXAE (1996–2004) LEGRI (1997–2002) MSX (1996–1997) OAO-2 (1968–1973) OAO-3 (Copernicus) (1972–1981) Orion 1/2 (1971/1973) RELIKT-1 (1983–1984) ROSAT (1990–1999) Rossi X-ray (RXTE) (1995–2012) SAMPEX (1992–2004) SAS-B (1972–1973) SAS-C (1975–1979) Tenma (Astro-B) (1983–1985) Uhuru (1970–1973) WMAP (2001–2010) Yokoh (Solar-A) (1991–2001)

Lost	e.g. launch failures: OAO-1/OAO-B (1966/1970) ABRAXIS (1999) HETE (1996) WIRE (1999) ASTRO-E (2000)

Completed	hibernating after mission: SWAS (1998–2005) TRACE (1998–2010) WISE (2009–2011)

On hiatus	TAUVEX

Old plans	Astro-G Constellation-X Darwin Destiny Eddington FAME GEMS IXO JDEM LISA SIM & SIMlite SNAP TPF XEUS

See also	Great Observatories program List of space telescopes Sun spacecraft List of proposed space observatories

Category

National Aeronautics and Space Administration (NASA)

Policy and history

NACA (1915)
National Aeronautics and Space Act (1958)
Paine (1986)
Rogers (1986)
Ride (1987)
Space Exploration Initiative (1989)
Augustine (1990)
U.S. National Space Policy (1996)
CFUSAI (2002)
CAIB (2003)
Vision for Space Exploration (2004)
Aldridge (2004)
Augustine (2009)
General: Space Race
Administrator and Deputy Administrator
Chief Scientist
Astronaut Corps
Budget
Spin-off technologies
NASA TV

Robotic programs

Past	Hitchhiker Mariner Mariner Mark II MESUR Mars Surveyor '98 New Millennium Lunar Orbiter Pioneer Planetary Observer Ranger Surveyor Viking Project Prometheus

Current	Living With a Star Lunar Precursor Robotic Program Earth Observing System Great Observatories program Explorer Small explorer Voyager Discovery New Frontiers Mars Exploration Rover Mars Scout

Human spaceflight
programs

Past	X-15 (suborbital) Mercury Gemini Apollo Apollo–Soyuz Test Project (with USSR) Skylab Shuttle–Mir (with Russia) Space Shuttle program Constellation program

Current	International Space Station program

Future/planned	Commercial Orbital Transportation Services (COTS) Commercial Crew Development (CCDev)

Individual
featured missions
(human and robotic)

Past	COBE Apollo 11 Mercury 3 Mercury 6 Magellan Pioneer 10/11 Voyager 1/2 Galileo WMAP WISE Space Shuttle

Currently operating	MRO Mars Odyssey MESSENGER Dawn New Horizons Kepler International Space Station Hubble Space Telescope Spitzer RHESSI SWIFT GALEX THEMIS Mars Exploration Rover Cassini GOES 14 Lunar Reconnaissance Orbiter GOES 15 RBSP SDO Aquarius Juno GRAIL MSL NuSTAR

Future	NPP James Webb Space Telescope MAVEN WFIRST InSight OSIRIS-REx MMS Asteroid Retrieval and Utilization Unnamed 2020 Mars rover

Space Comm and Nav (SCaN)

NASA categories
and lists

v t e ← 2009 · Orbital launches in 2010 · 2011 →

Compass-G1 \| Globus-1M No.12L \| Progress M-04M \| STS-130 (Tranquility · Cupola) \| SDO \| Intelsat 16 \| Kosmos 2459 · Kosmos 2460 · Kosmos 2461 \| GOES 15 \| Yaogan 9A · Yaogan 9B · Yaogan 9C \| EchoStar XIV \| Soyuz TMA-18 \| STS-131 (Leonardo MPLM) \| CryoSat-2 \| GSAT-4 \| Kosmos 2462 \| USA-212 \| SES-1 \| Kosmos 2463 \| Progress M-05M \| STS-132 (Rassvet · ICC-VLD) \| Akatsuki · IKAROS (DCAM-1 · DCAM-2) · Shin'en · Waseda-SAT2 · Hayato · Negai ☆'' \| Astra 3B · COMSATBw-2 \| USA-213 \| SERVIS-2 \| Compass-G3 \| Badr-5 \| Dragon Spacecraft Qualification Unit \| STSAT-2B \| Shijian XII \| Prisma · Picard · BPA-1 \| Soyuz TMA-19 \| TanDEM-X \| Ofek-9 \| Arabsat-5A · Chollian \| Progress M-06M \| EchoStar XV \| Cartosat-2B · AlSat-2A · StudSat · AISSat-1 · TIsat-1 \| Compass-IGSO1 \| Nilesat 201 · RASCOM-QAF 1R \| Yaogan 10 \| USA-214 \| Tian Hui 1 \| Kosmos 2464 · Kosmos 2465 · Kosmos 2466 \| Chinasat-6A \| Gonets-M No.2 · Kosmos 2467 · Kosmos 2468 \| Progress M-07M \| Michibiki \| USA-215 \| Yaogan 11 · Zheda Pixing 1B · Zheda Pixing 1C \| USA-216 \| Kosmos 2469 \| Chang'e-2 \| Shijian 6G · Shijian 6H \| Soyuz TMA-01M \| XM-5 \| Globalstar 73 · Globalstar 74 · Globalstar 75 · Globalstar 76 · Globalstar 77 · Globalstar 79 \| Progress M-08M \| Eutelsat W3B · BSat 3B \| Compass-G4 \| Meridian 3 \| Feng Yun 3B \| COSMO-4 \| SkyTerra-1 \| STPSat-2 · RAX · O/OREOS · FASTSAT (NanoSail-D2) · FalconSat-5 · Sara-Lily · Emma \| USA-223 \| Chinasat-20A \| Intelsat 17 · Hylas 1 \| Glonass-M No.39 · Glonass-M No.40 · Glonass-M No.41 \| Dragon C1 · Mayflower · SMDC-ONE 1 · QbX-1 · QbX-2 · Perseus 000 · Perseus 001 · Perseus 002 · Perseus 003 \| Soyuz TMA-20 \| Compass-IGSO2 \| GSAT-5P \| KA-SAT

Payloads are separated by bullets ( · ), launches by pipes ( \| ). Manned flights are indicated in bold text. Uncatalogued launch failures are listed in italics. Payloads deployed from other spacecraft are denoted in (brackets).

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Solar Dynamics Observatory

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