THEMIS

This article is about NASA satellites. For the 2001 Mars Odyssey orbiter camera system, see Thermal Emission Imaging System. For other uses, see Themis (disambiguation).

"ARTEMIS" redirects here. For other uses, see ARTEMIS (disambiguation).

THEMIS
Spacecraft properties
THEMIS in Delta II fairing

Mission type	Magnetospheric research
Operator	NASA
COSPAR ID	2007-004 (A, B, C, D, E)
SATCAT №	30580, 30581, 30582, 30583, 30584
Website	themis.ssl.berkeley.edu
Mission duration	elapsed: 9 years, 9 months and 29 days

Manufacturer	Swales Aerospace
Launch mass	630 kilograms (1,390 lb)
Dry mass	77 kilograms (170 lb) each
Power	37.0 W each

Start of mission
Launch date	17 February 2007, 23:01:00 (2007-02-17UTC23:01Z) UTC
Rocket	Delta II 7925-10C
Launch site	Cape Canaveral SLC-17B

Orbital parameters
Reference system	Geocentric
Regime	Highly Elliptical
Eccentricity	0.8637973070144653
Perigee	470 kilometres (290 mi)
Apogee	87,330 kilometres (54,260 mi)
Inclination	16.0°
Period	1,870 minutes

The Time History of Events and Macroscale Interactions during Substorms (THEMIS) mission was originally a constellation of five NASA satellites (THEMIS A through THEMIS E) to study energy releases from Earth's magnetosphere known as substorms, magnetic phenomena that intensify auroras near Earth's poles. The name of the mission is an acronym alluding to the Titan, Themis.^[1]

Three of the satellites remain in the magnetosphere, while two have been moved into orbit near the Moon. Those have been renamed ARTEMIS for Acceleration, Reconnection, Turbulence and Electrodynamics of the Moon’s Interaction with the Sun. THEMIS B became ARTEMIS P1 and THEMIS C became ARTEMIS P2.^[2]

The THEMIS satellites were launched February 17, 2007 from Cape Canaveral Air Force Station Space Launch Complex 17 aboard a Delta II rocket.^[1]^[3] Each satellite carries identical instrumentation, including a fluxgate magnetometer (FGM), an electrostatic analyzer (ESA), a solid state telescope (SST), a search-coil magnetometer (SCM) and an electric field instrument (EFI). Each has a mass of 126 kg, including 49 kg of fuel.^[4]

THEMIS data can be accessed using the SPEDAS software.

Launch

The launch of THEMIS atop the Delta II 7925 rocket, at SLC-17B, Cape Canaveral

THEMIS was originally scheduled to launch on October 19, 2006. Owing to delays caused by workmanship problems with Delta II second stages—an issue that also affected the previous mission, STEREO—the THEMIS launch was delayed to Thursday, February 15, 2007. Due to weather conditions occurring on Tuesday, February 13, fueling of the second stage was delayed, and the launch pushed back 24 hours. On February 16, the launch was scrubbed in a hold at the T-4 minute point in the countdown due to the final weather balloon reporting a red, or nogo condition for upper level winds. A 24-hour turnaround procedure was initiated, targeting a new launch window between 23:01 and 23:17 UTC on February 17.

Favorable weather conditions were observed on February 17, and the countdown proceeded smoothly. THEMIS successfully launched at 6:01 p.m. EST. The spacecraft separated from the launch vehicle approximately 73 minutes after liftoff. By 8:07 p.m. EST, mission operators at the Space Sciences Laboratory (SSL) of the University of California, Berkeley, commanded and received signals from all five spacecraft, confirming nominal separation status.

The launch service was provided by the United Launch Alliance through NASA Launch Services Program (LSP).

Mission status

From February 15, 2007 until September 15, 2007 the five THEMIS satellites coasted in a string-of-pearls orbital configuration. From September 15, 2007 until December 4, 2007 the satellites were moved to more distant orbits in preparation for data collection in the magnetotail. This phase of the mission was called the "Dawn Phase" because the satellites' orbits were in apogee on the dawn side of the magnetosphere. On December 4, 2007 the first tail science phase of the mission began. In this segment of the mission scientists will collect data from the magnetotail of the Earth's magnetosphere. During this phase the satellites' orbits are in apogee inside the magnetotail. The scientists hope to observe substorms and magnetic reconnection events. During these events charged particles stored in the Earth's magnetosphere are discharged to form the aurora borealis. Tail science is performed in the winter of the northern hemisphere because the ground magnetometers that Themis scientists correlate the satellite data with have relatively longer periods of night. During the night, observations are not interrupted by charged particles from the Sun.^[5]

In 2007, THEMIS "found evidence of magnetic ropes connecting Earth's upper atmosphere directly to the Sun," reconfirming the theory of solar-terrestrial electrical interaction (via "Birkeland currents" or "field-aligned currents") proposed by Kristian Birkeland circa 1908.^[6]^[7] NASA also likened the interaction to a "30 kiloVolt battery in space," noting the "flux rope pumps 650,000 Amp current into the Arctic!"^[8]

On 26 February 2008, THEMIS probes were able to determine, for the first time, the triggering event for the onset of magnetospheric substorms.^[9] Two of the five probes, positioned approximately one third the distance to the Moon, measured events suggesting a magnetic reconnection event 96 seconds prior to Auroral intensification.^[10] Dr. Vassilis Angelopoulos of the University of California, Los Angeles, who is the principal investigator for the THEMIS mission, claimed, "Our data show clearly and for the first time that magnetic reconnection is the trigger."^[11]

THEMIS images and multimedia

THEMIS in orbit.

THEMIS discovered a flux rope pumping a 650,000 Amp current into the Arctic.

THEMIS discovered that Earth's magnetic field often develops two holes that allow leaks of solar particles.

This illustration depicts the individual orbits of NASA's THEMIS spacecraft.

Extended mission

On May 19, 2008 the Space Sciences Laboratory (SSL) at Berkeley announced NASA had extended the THEMIS mission to the year 2012. NASA officially approved the movement of THEMIS B and THEMIS C into lunar orbit under the mission name ARTEMIS (Acceleration, Reconnection, Turbulence and Electrodynamics of the Moon's Interaction with the Sun).

ARTEMIS

ARTEMIS probes in lunar orbit

As of spring 2010, ARTEMIS P1 (THEMIS B) has performed two Lunar flybys and one Earth flyby, and was approaching insertion into a Lissajous orbit around a Lunar Lagrange point. Lunar orbit insertion was targeted for April 2011. ARTEMIS P2 (THEMIS C) completed a Lunar flyby and was on the inbound leg of the first of three deep space excursions on its way to a Lissajous orbit and was targeted for Lunar orbit in April 2011.^[12]

On June 22, 2011, ARTEMIS P1 began firing its thrusters to move out of its kidney-shaped "libration" orbit on one side of the Moon, where it had been since January.^[13] As of July 2, 2011 12:30 p.m. EDT, ARTEMIS P1 achieved lunar orbit. The second spacecraft, ARTEMIS P2, moved into lunar orbit as of July 17, 2011.^[14] Along the way, the two spacecraft were the first to ever achieve orbit around the Moon's Lagrangian points.^[13]^[15]

As of November 2013, both probes are in very stable orbits, and the health of all instruments and the spacecraft remains very good.^[16]

Instruments

Aboard the spacecraft

Instrument Data Processing Unit (IDPU): The IDPU houses most of the electronics for the instruments on the THEMIS spacecraft.
Electric Field Instruments (EFI): The EFI is designed and built to sense the electric field in Earth's ever-changing magnetosphere
Fluxgate magnetometer (FGM): The FGM measures the background magnetic field to identify and time the abrupt reconfigurations of the magnetosphere during substorm onset.
Search-coil magnetometer (SCM): The SCM measures low frequency magnetic field fluctuations and waves in three directions in Earth's magnetosphere.
Electrostatic Analyzer (ESA): The ESA measures thermal electrons and ions to identify and track high-speed flows through the magnetotail and identify pressure pulses.
Solid State Telescope (SST): The SST measures energetic particle distribution functions.
Digital Fields Board (DFB): The DFB uses an FPGA to perform configurable on-board band pass processing and fast Fourier transformations(FFT) on instrument data.

Ground based

As the satellites monitor the magnetosphere from orbit, twenty ground stations in North America simultaneously monitor auroras. Ground station mission and science operations are being managed by the University of California Space Sciences Laboratory.

Ground-Based All-Sky Imager (ASI) Array: The ground-based All-Sky Imager (ASI) array observes the aurora over the Northern American continent from Canada to Alaska in order to determine where and when the auroral substorm onset occurs.
Ground-Based Magnetometer (GMAG) Array: The GMAG Measure changes in Earth’s magnetic field near Earth’s surface due to substorm onset to help determine the timing of substorm events.

Swales Aerospace

Swales Aerospace, now part of Orbital ATK, (Beltsville, Maryland) manufactured all five probes for this mission. Each was built-up and tested at the Beltsville facility, before being delivered to University of California, Berkeley for instrument integration. Swales was responsible for integrating the BAU, IRU, Solar Arrays, Antenna, Battery, and other components necessary for functionality. This was the second major satellite built by Swales, the first being the EO-1 spacecraft, which continues to orbit Earth. Swales was also responsible for designing and building the Electrical Ground Support Equipment (EGSE) used for monitoring the probes during all phases of pre-launch activities, including use at the launch site.

JPL

After the installation of instruments at SSL, Berkeley, pre-launch testing including thermal-vac, vibration and acoustic tests, was conducted at NASA's Jet Propulsion Laboratory in Pasadena, California.

FAST

The Fast Auroral Snapshot Explorer (FAST) mission supported THEMIS in 2008 and 2009 before being retired.^[17] FAST was a Small Explorer program (SMEX) mission launched in 1996.^[17]

References

1 2 Lynn Jenner (28 May 2009). "THEMIS Mission Pages". NASA. Retrieved 2009-12-02.
↑ Phillips, Tony. "Dead Spacecraft Walking". ARTEMIS mission site. NASA. Retrieved 28 June 2011.
↑ Justin Ray (18 February 2007). "Mission Status Center: THEMIS". SpaceFlight Now. Retrieved 2009-12-02.
↑ World Data Center for Satellite Information (1 March 2007). "SPACEWARN Bulletin, No. 640". National Space Science Data Center. Retrieved 2009-12-02.
↑ Space Sciences Laboratory (2009). "Themis Orbits". UC Berkeley. Retrieved 2009-12-02.
↑ Cynthia O'Carroll (11 December 2007). "NASA Spacecraft Make New Discoveries About Northern Lights". Goddard Space Flight Center. Retrieved 2009-12-02.
↑ Tony Phillips (20 March 2008). "Spring is Aurora Season". Science@NASA. Retrieved 2009-12-02.
↑ Cynthia O'Carroll (7 December 2007). "Multimedia for the Press Event for THEMIS". Goddard Space Flight Center. Retrieved 2009-12-02.
↑ Laura Layton (24 July 2008). "THEMIS Satellites Discover What Triggers Eruptions of the Northern Lights". NASA Goddard Space Flight Center. Retrieved 2009-12-02.
↑ Vassilis Angelopoulos; et al. (15 August 2008). "Tail Reconnection Triggering Substorm Onset". Science. 321 (5891). pp. 931–935. Retrieved 2009-12-02.
↑ Tariq Malik (24 July 2008). "Secret of Colorful Auroras Revealed". SPACE.com. Retrieved 2009-12-02.
↑ Space Sciences Laboratory. "THEMIS News and Events". UC Berkeley. Retrieved 2010-04-09.
1 2 Fox, Karen C. "First ARTEMIS Spacecraft Successfully Enters Lunar Orbit". The Sun-Earth Connection: Heliophysics. NASA.
↑ Hendrix, Susan. "Second ARTEMIS Spacecraft Successfully Enters Lunar Orbit". The Sun-Earth Connection: Heliophysics. NASA.
↑ Broschart, S.B. (2009). Preliminary Trajectory Design for the ARTEMIS Lunar Mission (PDF). AAS/AIAA Astrodynamics Specialists Meeting. 09-382. Pittsburg.
↑ ARTEMIS Mission Update
1 2 FAST EPO News

External links

Wikimedia Commons has media related to THEMIS.

Wikinews has related news: Aurora Borealis caused by electrical space tornadoes

Spacecraft missions to the Moon

Current

Orbiters	ARTEMIS Chang'e 5-T1 (Service Module) Lunar Reconnaissance Orbiter

Past

Programs	Apollo Chandrayaan Chinese Lunar Exploration Program Japanese Lunar Exploration Program Luna Lunar Orbiter Lunar Precursor Robotic Program Lunokhod Pioneer Ranger Surveyor Zond

Orbiters	Apollo 8 10 Apollo 15 Subsatellite (PFS-1) Apollo 16 Subsatellite (PFS-2) Chandrayaan-1 Chang'e 1 Chang'e 2 Clementine Explorer 35 Explorer 49 GRAIL Hiten LADEE Luna 10 11 12 14 19 22 Lunar Orbiter 1 2 3 4 5 Lunar Prospector SELENE (Kaguya, Okina & Ouna) SMART-1

Flybys	4M Apollo 13 AsiaSat-3 Cassini–Huygens Chang'e 5-T1 Galileo Geotail Luna 1 Luna 3 Mariner 10 Nozomi Pioneer 4 Pioneer 10 Ranger 5 Zond 3 5 6 7 8

Impactors	LCROSS Luna 2 MIP Ranger 4 6 7 8 9

Landers	Apollo Lunar Module x6 ALSEP (x5) and EASEP (x1) Chang'e 3 Luna 9 13 17 21 Surveyor 1 3 5 6 7

Rovers	Apollo 15 16 17 Lunokhod 1 Lunokhod 2 Yutu

Sample return	Apollo x6 Luna 16 20 24

Human landing	Apollo 11 12 14 15 16 17

Planned

Moon Express (2017)
SpaceIL (2017)
Chang'e 5 (2017)
Astrobotic / Hakuto / AngelicvM / Puli (2017)
Chandrayaan-2 (2018)
Chang'e 4 (2018)
EM-1 (Lunar Flashlight / Lunar IceCube / LunaH-Map / SkyFire) (2018)
SELENE-2 (2018)
SLIM (2019)
Chang'e 6 (2020)

Proposed

Cancelled

See also

Manned missions in italics.

21st century space probes

Active space probes	ACE Akatsuki ARTEMIS Cassini Chang'e 2 Chang'e 5-T1 Dawn ExoMars TGO Hayabusa 2 + MASCOT IKAROS Juno LRO Mangalyaan Mars Express 2001 Mars Odyssey MAVEN MER Opportunity MRO MSL Curiosity New Horizons OSIRIS-REx PROCYON SOHO STEREO Voyager 1 Voyager 2

Completed after 2000 by termination date	2001 NEAR Shoemaker Deep Space 1 2003 Pioneer 10 Galileo Nozomi 2004 Genesis 2005 Huygens 2006 Mars Global Surveyor 2008 Phoenix 2009 Chang'e 1 Ulysses Chandrayaan-1 SELENE LCROSS 2010 Hayabusa MER Spirit 2011 Stardust 2012 GRAIL 2013 Deep Impact 2014 LADEE Venus Express 2015 MESSENGER Chang'e 3 + Yutu 2016 Rosetta + Philae ExoMars Schiaparelli

List of Solar System probes List of lunar probes proposed List of space telescopes

Explorers program

Explorer	Explorer 1 2 3 4 5 6 (S-2) 7 (S-1a) 8 S-56 9 (S-56A) 10 11 (S-15) 14 (EPE-B) 17 (AE-A) 19 30 (Solrad 8) 32 (AE-B) 33 (IMP-D) 34 35 (IMP-E) 37 (Solrad 9) 39 42 (Uhuru) 44 (Solrad 10) 48 (SAS B) 49 (RAE-B) 52 (Hawkeye 1) 53 (SAS C) 56 (ISEE-1) 57 (IUE) 58 (HCMM) 59 (ICE) 61 (Magsat) 62 (DE-1) 63 (DE-2) 64 (SME) 66 (COBE) 67 (EUVE) 68 (SAMPEX)

MIDEX	50 (IMP-8) 69 (RXTE) 71 (ACE) 77 (FUSE) 78 (IMAGE) 80 (WMAP) 84 (Swift) 85 thru 89 (THEMIS) 92 (WISE) ICON^‡ TESS^‡

SMEX	68 (SAMPEX) 70 (FAST) 73 (TRACE) 74 (SWAS) 75 (WIRE) 81 (RHESSI) 83 (GALEX) 90 (AIM) 91 (IBEX) 93 (NuSTAR) 94 (IRIS)

UNEX	72 (SNOE) 82 (CHIPSat)

MO	79 (HETE-2) CINDI Suzaku TWINS Hitomi GOLD^‡ NICER^‡

International	INTEGRAL

Italics indicates probes that failed to deploy or otherwise malfunctioned · ^‡ indicate missions yet to launch.

NASA

Policy and history

History	NACA (1915) National Aeronautics and Space Act (1958) Space Task Group (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 NASA Social Launch Services Program Kennedy Space Center Vehicle Assembly Building Launch Complex 39 Launch Control Center Johnson Space Center Mission Control Lunar Sample Laboratory

Robotic programs

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

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

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 Commercial Orbital Transportation Services (COTS) Commercial Crew Development (CCDev) Orion

Individual featured
missions
(human and robotic)

Past	COBE Apollo 11 Mercury 3 Mercury-Atlas 6 Magellan Pioneer 10/11 Galileo GALEX GRAIL WMAP Space Shuttle LADEE MESSENGER Aquarius

Currently operating	MRO Mars Odyssey Dawn New Horizons Kepler International Space Station Hubble Space Telescope Spitzer RHESSI SWIFT THEMIS Mars Exploration Rover Curiosity rover timeline Opportunity rover observed Cassini GOES 14 Lunar Reconnaissance Orbiter GOES 15 Van Allen Probes SDO Juno Mars Science Laboratory timeline NuSTAR Voyager 1/2 WISE MAVEN MMS

Future	JPSS James Webb Space Telescope WFIRST InSight OSIRIS-REx Asteroid Redirect Mission Mars 2020 NISAR Transiting Exoplanet Survey Satellite Europa Multiple-Flyby Mission

Communications
and Navigation

NASA lists

Category
Commons
Portal

Magnetospherics

Submagnetosphere	Atmospheric circulation Aurora Earth's magnetic field Geosphere Jet stream Polar wind

Earth's magnetosphere	Birkeland current Ionosphere Magnetopause Magnetosheath Magnetosphere Magnetosphere chronology Magnetosphere particle motion Plasmasphere Ring current Van Allen radiation belt

Solar wind	Coronal cloud Coronal mass ejection Geomagnetic storm Heliopause Heliosphere Heliospheric current sheet Interplanetary magnetic field Solar flare Space weather

Satellites	Full list Cluster II Double Star ERG (2016) Geotail IMAGE MMS (2015) Polar THEMIS Van Allen Probes WIND

Research projects	HAARP SHARE Unwin Radar SuperDARN

Other magnetospheres	Ganymedian Hermian Jovian Lunar Neptunian Saturnian Uranian

Related topics	Flux tube Gas torus Lunar swirls Planetary rings Jupiter Neptune Saturn Uranus

← 2006 · Orbital launches in 2007 · 2008 →

Cartosat-2 · SRE-1 · Lapan-TUBsat · Pehuensat-1 \| Progress M-59 \| NSS-8 \| Beidou-1D \| THEMIS A · THEMIS B · THEMIS C · THEMIS D · THEMIS E \| IGS Radar 2 · IGS Optical 3V \| ASTRO · NEXTSat · MidSTAR-1 · FalconSAT-3 · STPSat-1 · CFESat \| Skynet 5A · INSAT-4B \| DemoFlight 2 \| Soyuz TMA-10 \| Anik F3 \| Hai Yang 1B \| Compass-M1 \| EgyptSat 1 · Saudisat-3 · SaudiComsat-3 · SaudiComsat-4 · SaudiComsat-5 · SaudiComsat-6 · SaudiComsat-7 · CP-3 · CP-4 · CAPE-1 · Libertad 1 · AeroCube 2 · CSTB-1 · MAST \| AGILE · AAM \| NFIRE \| AIM \| Astra 1L · Galaxy 17 \| Progress M-60 \| NigComSat-1 \| Yaogan 2 · Zheda PiXing 1 \| Globalstar 65 · Globalstar 69 · Globalstar 71 · Globalstar 72 \| Sinosat-3 \| Kosmos 2427 \| COSMO-1 \| STS-117 (ITS S3/4) \| Ofek-7 \| TerraSAR-X \| USA-194 \| Genesis II \| Kosmos 2428 \| SAR-Lupe 2 \| zhongxing 6B \| DirecTV-10 \| Progress M-61 \| Phoenix \| STS-118 (ITS S5 · SpaceHab LSM) \| Spaceway-3 · BSAT-3a \| INSAT-4CR \| JCSAT-11 \| Kosmos 2429 \| Kaguya (Okina · Ouna) \| Foton-M No.3 · YES2 \| WorldView-1 \| CBERS-2B \| Dawn \| Intelsat 11 · Optus D2 \| Soyuz TMA-11 \| USA-195 \| USA-196 \| Globalstar 66 · Globalstar 67 · Globalstar 78 · Globalstar 70 \| Kosmos 2430 \| STS-120 (Harmony) \| Chang'e 1 \| Kosmos 2431 · Kosmos 2432 · Kosmos 2433 \| SAR-Lupe 3 · Rubin-7 \| USA-197 \| Yaogan 3 \| Skynet 5B · Star One C1 \| Sirius 4 \| Globus-1M No.11L \| COSMO-2 \| USA-198 \| Radarsat-2 \| USA-199 \| Horizons-2 · Rascom-QAF 1 \| Progress M-62 \| Kosmos 2434 · Kosmos 2435 · Kosmos 2436

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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