Cluster mission

Cluster II is a space mission of the European Space Agency, with NASA participation, to study the Earth's magnetosphere over the course of nearly two solar cycles. The mission is composed of four identical spacecraft flying in a tetrahedral formation. As a replacement for the original Cluster spacecraft which were lost in a launch failure in 1996, the four Cluster II spacecraft were successfully launched in pairs in July and August 2000 onboard two Soyuz-Fregat rockets from Baikonur, Kazakhstan. In February 2011, Cluster II celebrated 10 years of successful scientific operations in space. , its mission has been extended until the end of 2022. China National Space Administration/ESA Double Star mission operated alongside Cluster II from 2004 to 2007.

Mission overview

The four identical Cluster II satellites study the impact of the Sun's activity on the Earth's space environment by flying in formation around Earth. For the first time in space history, this mission is able to collect three-dimensional information on how the solar wind interacts with the magnetosphere and affects near-Earth space and its atmosphere, including aurorae.

The spacecraft are cylindrical (2.9 x 1.3 m, se
online 3D model
and are spinning at 15 rotations per minute. After launch, their solar cells provided 224 watts power for instruments and communications. Solar array power has gradually declined as the mission progressed, due to damage by energetic charged particles, but this was planned for and the power level remains sufficient for science operations. The four spacecraft maneuver into various tetrahedral formations to study the magnetospheric structure and boundaries. The inter-spacecraft distances can be altered and has varied from around 4 to 10,000 km. The propellant for the transfer to the operational orbit, and the maneuvers to vary inter-spacecraft separation distances made up approximately half of the spacecraft's launch weight.

The highly elliptical orbits of the spacecraft initially reached a perigee of around 4 R_E (Earth radii, where 1 R_E = 6371 km) and an apogee of 19.6 R_E. Each orbit took approximately 57 hours to complete. The orbit has evolved over time; the line of apsides has rotated southwards so that the distance at which the orbit crossed the magnetotail current sheet progressively reduced, and a wide range of dayside magnetopause crossing latitudes were sampled. Gravitational effects impose a long term cycle of change in the perigee (and apogee) distance, which saw the perigees reduce to a few 100 km in 2011 before beginning to rise again. The orbit plane has rotated away from 90 degrees inclination. Orbit modifications by ESOC have altered the orbital period to 54 hours. All these changes have allowed Cluster to visit a much wider set of important magnetospheric regions than was possible for the initial 2-year mission, improving the scientific breadth of the mission.

The European Space Operations Centre (ESOC) acquires telemetry and distributes to the online data centers the science data from the spacecraft. The Joint Science Operations Centre JSOC at Rutherford Appleton Laboratory in the UK coordinates scientific planning and in collaboration with the instrument teams provides merged instrument commanding requests to ESOC.

Th
Cluster Science Archive
is the ESA long term archive of the Cluster and Double Star science missions. Since 1 November 2014, it is the sole public access point to the Cluster mission scientific data and supporting datasets. The Double Star data are publicly available via this archive. The Cluster Science Archive is located alongside all the other ESA science archives at the European Space Astronomy Center, located near Madrid, Spain. From February 2006 to October 2014, the Cluster data could be accessed via th
Cluster Active Archive

History

The Cluster mission was proposed to ESA in 1982 and approved in 1986, along with the Solar and Heliospheric Observatory (SOHO), and together these two missions constituted the Solar Terrestrial Physics "cornerstone" of ESA's Horizon 2000 missions programme. Though the original Cluster spacecraft were completed in 1995, the explosion of the Ariane 5 rocket carrying the satellites in 1996 delayed the mission by four years while new instruments and spacecraft were built.

On July 16, 2000, a Soyuz-Fregat rocket from the Baikonur Cosmodrome launched two of the replacement Cluster II spacecraft, (Salsa and Samba) into a parking orbit from where they maneuvered under their own power into a 19,000 by 119,000 kilometer orbit with a period of 57 hours. Three weeks later on August 9, 2000, another Soyuz-Fregat rocket lifted the remaining two spacecraft (Rumba and Tango) into similar orbits. Spacecraft 1, Rumba, is also known as the Phoenix spacecraft, since it is largely built from spare parts left over after the failure of the original mission. After commissioning of the payload, the first scientific measurements were made on February 1, 2001.

The European Space Agency ran a competition to name the satellites across all of the ESA member states. Ray Cotton, from the United Kingdom, won the competition with the names Rumba, Tango, Salsa and Samba. Ray's town of residence, Bristol, was awarded with scale models of the satellites in recognition of the winning entry, as well as the city's connection with the satellites. However, after many years of being stored away, they were finally given a home at the Rutherford Appleton Laboratory.

Originally planned to last until the end of 2003, the mission has been extended several times. The first extension took the mission from 2004 until 2005, and the second from 2005 to June 2009. The mission has now been extended until the end of 2020.

Scientific objectives

Previous single and two-spacecraft missions were not capable of providing the data required to accurately study the boundaries of the magnetosphere. Because the plasma comprising the magnetosphere cannot be viewed using remote sensing techniques, satellites must be used to measure it in-situ. Four spacecraft allow scientists make the 3D, time-resolved measurements needed to create a realistic picture of the complex plasma interactions occurring between regions of the magnetosphere and between the magnetosphere and the solar wind.

Each satellite carries a scientific payload of 11 instruments designed to study the small-scale plasma structures in space and time in the key plasma regions: solar wind, bow shock, magnetopause, polar cusps, magnetotail, plasmapause boundary layer and over the polar caps and the auroral zones.

* The bow shock is the region in space between the Earth and the sun where the solar wind decelerates from super- to sub-sonic before being deflected around the Earth. In traversing this region, the spacecraft make measurements which help characterize processes occurring at the bow shock, such as the origin of hot flow anomalies and the transmission of electromagnetic waves through the bow shock and the magnetosheath from the solar wind.
* Behind the bow shock is the thin plasma layer separating the Earth and solar wind magnetic fields known as the magnetopause. This boundary moves continuously due to the constant variation in solar wind pressure. Since the plasma and magnetic pressures within the solar wind and the magnetosphere, respectively, should be in equilibrium, the magnetosphere should be an impenetrable boundary. However, plasma has been observed crossing the magnetopause into the magnetosphere from the solar wind. Cluster's four-point measurements make it possible to track the motion of the magnetopause as well as elucidate the mechanism for plasma penetration from the solar wind.
* In two regions, one in the northern hemisphere and the other in the south, the magnetic field of the Earth is perpendicular rather than tangential to the magnetopause. These polar cusps allow solar wind particles, consisting of ions and electrons, to flow into the magnetosphere. Cluster records the particle distributions, which allow the turbulent regions at the exterior cusps to be characterized.
* The regions of the Earth's magnetic field that are stretched by the solar wind away from the Sun are known collectively as the magnetotail. Two lobes that reach past the Moon in length form the outer magnetotail while the central plasma sheet forms the inner magnetotail, which is highly active. Cluster monitors particles from the ionosphere and the solar wind as they pass through the magnetotail lobes. In the central plasma sheet, Cluster determines the origins of ion beams and disruptions to the magnetic field-aligned currents caused by substorms.
* The precipitation of charged particles in the atmosphere creates a ring of light emission around the magnetic pole known as the auroral zone. Cluster measures the time variations of transient particle flows and electric and magnetic fields in the region.

Instrumentation on each Cluster satellite

Double Star mission with China

In 2003 and 2004, the China National Space Administration launched the Double Star satellites, TC-1 and TC-2, that worked together with Cluster to make coordinated measurements mostly within the magnetosphere. TC-1 stopped operating on 14 October 2007. The last data from TC-2 was received in 2008. TC-2 made a contribution to magnetar science as well as to magnetospheric physics. The TC-1 examined density holes near the Earth's bow shock that can play a role in bow shock formation and looked at neutral sheet oscillations.

Awards

Cluster team awards

*201
Royal Astronomical Society Group Achievement Award

*2015 ESA 15th anniversary award
*2013 ESA team award
*201
International Academy of Astronautics Laurels for team achievements for Cluster and Double Star teams
*2005 ESA Cluster 5th anniversary award
*2004 NASA group achievement award
*2000 Popular science best of what's new award
*2000 ESA Cluster launch award

Individual awards

*2020 Daniel Graham (Swedish Institute of Space Physics, Uppsala, Sweden) was awarded th
COSPAR Zeldovich medal

*2019 Margaret Kivelson (UCLA, USA), Cluster FGM CoI
received RAS gold medal
*2018 Hermann Opgenoorth (Univ. of Umea, Sweden), former Cluster Ground Based Working Group lead, was awarded th
2018 Baron Marcel Nicolet Space Weather and Space Climate medal

*2016 Stephen Fuselier (SWRI, USA), Cluster CIS CoI
received EGU Hannes Alfvén Meda
*2016 Mike Hapgood, Cluster mission scientific operations expert wa
awarded the Baron Marcel Nicolet Medal for Space Weather and Space Climate

*2014 Rumi Nakamura (IWF, Austria), Cluster CIS/EDI/FGM CoI
received EGU Julius Bartels Medal

*2013 Mike Hapgood (RAL, UK), Cluster JSOC project scientis
received RAS service award
*2013 Göran Marklund, EFW Co-I, received th
EGU Hannes Alfvén Medal 2013

*2013 Steve Milan, Cluster Ground based representative of the Cluster missio
received UK Royal Astronomical Society (RAS) Chapman medal
*2012 Andrew Fazakerley, Cluster and Double Star PI (PEACE)
received the Royal Astronomical Society Chapman Medal
*2012 Zuyin Pu (Pekin U., China), RAPID/CIS/FGM CoI
received AGU International Award

*2012 Jolene Pickett (Iowa U., USA), a Cluster WBD PI
received the State of Iowa Board of Regents Staff Excellence

*2012 Jonathan Eastwood (Imperial College, UK), FGM Co-I
received COSPAR Yakov B. Zeldovich medal

*2008 Andre Balogh (Imperial College, UK), Cluster FGM PI
received RAS Chapman medal
*2006 Steve Schwartz (QMW, UK), Cluster UK data system scientist and PEACE co-I
received RAS Chapman medal

Discoveries and mission milestones

2022

* August 03
Joint Cluster/ground-based studies in the first 20 years of the Cluster mission

* July 18 �
In situ observation of a magnetopause indentation that is correspondent to throat aurora and is caused by magnetopause reconnection
* June 16
Kelvin-Helmholtz vortices as an interplay of Magnetosphere-Ionosphere coupling

* June 02
ESA highlight: Magnetic vortices explain mysterious auroral beads

* May 16
The influence of localized dynamics on dusk-dawn convection in the Earth’s magnetotail

* April 1
Dawn-dusk ion flow asymmetry in the plasma sheet

* February 1
South Pole Station ground-based and Cluster satellite measurements of leaked and escaping Auroral Kilometric Radiation

* January 1
Massive multi-mission statistical study and analytical modeling of the Earth's magnetopause

2021

* December 15
ESA highlight: Swarm and Cluster get to the bottom of geomagnetic storms

* November 7
Unique MMS and Cluster observations about magnetic reconnection extent at the magnetopause

* November 2
Spatial distribution of energetic protons in the magnetosphere based on 17 years of data

* October 11
Unique MMS and Cluster observation of disturbances in the near-Earth magnetotail before a magnetic substorm

* September 7
AGU EOS spotlight: Understanding Aurora Formation with ESA’s Cluster Mission

* May 2
Cluster and MMS uncover anisotropic spatial correlation functions at kinetic range in the magnetosheath turbulence

* April 9
The Solar-cycle Variations of the Anisotropy of Taylor Scale and Correlation Scale in the Solar Wind Turbulence

* February 18
Heavy Metal and Rock in Space: Cluster RAPID Observations of Fe and Si

2020

* December 1
Cluster, Helios and Ulysses reveal characteristics of solar wind supra thermal halo electrons
* November 1
Cluster, Swam and CHAMP join forces to explain hemispheric asymmetries in the Earth magnetotail

* October 21
Space plasma regimes classified with Cluster data
* October 1
Effects of Solar Activity on Taylor Scale and Correlation Scale in Solar Wind Magnetic Fluctuations

* September 1
Van Allen Probes and Cluster join forces to study Outer Radiation Belt Electrons

* August 9
Cluster’s 20 years of studying Earth’s magnetosphere
celebrating 20 years after the launch of the second pair of Cluster spacecraft
* July 31
ESA science highlight: Auroral substorms triggered by short circuiting of plasma flows
* July 16
BBC skyatnight podcast with Dr. Mike Hapgood on 20 years of ESA’s Cluster mission
celebrating 20 years after the launch of the first pair of Cluster satellites
* April 20
What drives some of the largest and most dynamic auroral forms?
* March 19
ESA science highlight: Iron is everywhere in Earth's vicinity, suggest two decades of Cluster data
* February 27
What makes Kelvin Helmholtz vortices grow at the Earth's magnetopause?

2019

* December 23
Magnetized dust clouds penetrate the terrestrial bow shock
* November 18
ESA science highlight: Earth’s magnetic song recorded for the first time during a solar storm
*October 10
What is the source of the energetic oxygen ions found in the high-altitude cusp region?
*August 27
ESA science highlight: Cluster and XMM pave the way for SMILE
*August 20
Asymmetric transport of the Earth's polar outflows by the interplanetary magnetic field
*August 5
Energetic electron acceleration found by Cluster in unconfined reconnection jets for the first time
*May 1
Kelvin‐Helmholtz waves magnetic curvature and vorticity: Four‐spacecraft Cluster observations
*March 4
ESA science highlight: Cluster helps solve mysteries of geomagnetic storms
*February 27
ESA science highlight: Cluster reveals inner workings of Earth's cosmic particle accelerator
*February 13
Statistical survey of the terrestrial bow shock observed by the Cluster spacecraft
*January 14
Super-efficient electron acceleration by an isolated magnetic reconnection

2018

*November 28 �
Complete picture of the O+ circulation (and escape) in the outer magnetosphere and its dependence on geomagnetic activity

*November 8
ESA science highlight: Windy with a chance of magnetic storms – space weather science with Cluster
*September 30
O+ escape during the extreme space weather event of 4–10 September 2017
*August 8
Statistical survey of day-side magnetospheric current flow using Cluster observations: bow shock
*June 20 �
Detection of magnetic nulls around reconnection fronts (open access)
*May 21 �
Tailward propagation of magnetic energy density variations with respect to substorm onset times (open access)
*April 24 �
Kelvin–Helmholtz Instability: lessons learned and ways forward
*March 29 �
Three-dimensional density and compressible magnetic structure in solar wind turbulence
*February 8 �
ESA spotlight on... Understanding Earth: what the Cluster mission has taught us so far
*January 29 �
ESA research highlight: Cluster measures turbulence in Earth's magnetic environment
*January 22 �
Science nugget of the 2013-2014 Cluster Inner Magnetosphere campaign

2017

*December 11, 2017 �
Empirical modeling of the quiet and storm time geosynchronous magnetic field
ref name="Andreeva V.A. and Tsyganenko N.A., 2017">

*December 6, 2017 �
Direct measurement of anisotropic and asymmetric wave vector spectrum in ion-scale solar wind turbulence
ref name="Roberts et al., 2017">

*October 30, 2017 �
Coherent structures at ion scales in the fast solar wind: Cluster observations

*September 18, 2017 �
An intense magnetic substorm scrutinized by a fleet of satellites including Cluster and MMS (open access)

*August 28, 2017 �
Relationship between electron field‐aligned anisotropy and dawn‐dusk magnetic field: nine years of Cluster observations in the Earth magnetotail

*August 1, 2017 �
Collisionless shock velocity estimation at Venus and Earth (open access)

*June 16, 2017 �
Cover of GRL: Global ULF waves generated by a hot flow anomaly
*April 10, 2017
ESA research highlight: O marks the spot for magnetic reconnection
*April 7, 2017 �
EOS research spotlight: Explaining unexpected twists in the Sun's Magnetic Field
ref name="Turc et al., 2017">

*March 23, 2017 �
Occurrence frequency and location of magnetic islands at the dayside magnetopause

*February 18, 2017 �
Magnetic reconnection and their associated auroral enhancements (open access)

2016

*October 3, 2016 �
What happens to the Earth's magnetosphere when its bow shock disappears?
ref name="Lugaz et al., 2016">

*September 6, 2016 �
Embry-Riddle University (FL, USA) science highlight: Space plasma hurricanes could lead to new sources of energy
ref name="Moore et al., 2016">

*July 20, 2016 �
Cluster and MMS join forces to understand the origin of northern lights
ref name="Schmid et al., 2016">

*July 8 �
Transport of solar wind H+ and He++ ions across Earth's bow shock

*July 7 �
ESA science highlight: the curious case of Earth's leaking atmosphere
ref name="Lee et al., 2016">

*June 11 �
Substructures within a dipolarization front revealed by high-temporal resolution Cluster observations

*May 11 �
Cone angle control of the interaction of magnetic clouds with the Earth's bow shock

*March 21 �
The particle carriers of field‐aligned currents in the Earth's magnetotail during a substorm

*February 29 �
The role of ionospheric O+ outflow in the generation of earthward propagating plasmoids
ref name="Zhang et al., 2016"/>
*January 11 �
A statistical study of plasmaspheric plumes and ionospheric outflows observed at the dayside magnetopause
ref name="Lee et al., 2016"/>

2015

*December 7


*October 22 - ttps://www.ann-geophys.net/33/1285/2015/angeo-33-1285-2015.pdf# Wide-banded Non-Thermal Continuum (NTC) radiation: local to remote observations by the four Cluster satellites
*September 3
Statistics and accuracy of magnetic null identification in multispacecraft data (open access)

*August 22
Cusp dynamics under northward IMF using three‐dimensional global particle‐in‐cell simulations (open access)

*July 14
Cluster solves the mystery of equatorial noise

*July 1
Seven ESA satellites team up to explore the Earth's magnetic field

*April 9
Heart of the black auroras revealed by Cluster

*March 25
Cluster satellite catches up
*February 19
Magnetospheric signatures of ionospheric density cavities observed by Cluster (open access)
*February 16
Solar illumination control of ionospheric outflow above polar cap arcs (open access)

*January 16 �
Rejigging the Cluster quartet at the bow shock and in the solar wind

2014

*December 18 �
Origin of high-latitude auroras revealed
*November 20
The Cluster mission is extended by ESA up to 2018
*September 4
Full particle electromagnetic simulations of entropy generation across a collisionless shock
*August 28 �
A mixed-up magnetic storm
*July 1
Dawn–dusk asymmetries in the coupled solar wind–magnetosphere–ionosphere system: a review
*June 15
Solar wind breaks through the Earth's magnetic field

*May 28
Evidence of strong energetic ion acceleration in the near‐Earth magnetotail (free access)

*May 7
Cluster helps to model Earth's mysterious magnetosphere

*March 15
Direct calculation of the ring current distribution and magnetic structure seen by Cluster during geomagnetic storms (open access)

*January 13
Low-altitude electron acceleration due to multiple flow bursts in the magnetotail (open access)

2013

*November 26
Cluster takes a tilt at radio wave sources

*November 15 �
On the relation between asymmetries in the ring current and magnetopause current (free access)

*September 20
ESA's Cluster satellites in closest-ever 'dance in space'
*September 10 �
Cluster shows plasmasphere interacting with Van Allen belts

*July 18
Wobbly magnetic reconnection speeds up electrons
*July 2
Cluster discovers steady leak in the Earth's plasmasphere
*May 2
Cluster hears the heartbeat of magnetic reconnection
*April 15
From solar activity to stunning aurora (ESA Space Science's image of the week)
*April 10 �
Cluster finds source of aurora energy boost

2012

*December 18 �
The solar wind is swirly
*October 24
Cluster observes a 'porous' magnetopause

*August 1 �
Cluster looks into waves in the magnetosphere's thin boundaries
*July 2

*June 6 �
Origin of particle acceleration in cusps of Earth's magnetosphere uncovered
*March 7

*February 27

*February 23
Surprise Ions (Science News for kids)
*January 26
Giant veil of cold plasma discovered high above Earth (National Geographic)
*January 24 �
Elusive matter found to be abundant far above Earth (AGU press release)

2011

*November 16 �
Cluster reveals Earth's bow shock is remarkably thin
*September 6 �
Ultra fast substorm auroras explained
*August 31

*July 5–10
Aurora explorer: the Cluster mission exhibit at the Royal Society summer science exhibition 2011
*July 4 �
Cluster observes jet braking and plasma heating
*June 30

*March 21

*February 5 �

*January 7
ESA spacecraft model magnetic boundaries

2010

*November 22
ESA extends the Cluster mission until December 2014
*October 4 �

*September 1
10 years of success for Cluster quartet
* July 26
Cluster makes crucial step in understanding space weather
* July 16

* July 8
Announcement of opportunity for Cluster guest investigators
* June 3 �
The Cluster archive: more than 1000 users
* April 24
High-speed plasma jets: origin uncovered
* March 11
Shocking recipe for 'killer electrons'
* January 20
Multiple rifts in Earth's magnetic shield

2009

*October 7
ESA extends the Cluster mission until December 2012
*July 16 �
Cluster shows how solar wind is heated at electron scales
*June 18
Cluster and Double Star: 1000 publications
*April 29
Monitoring the impact of extreme solar events
*March 25
Cluster's insight into space turbulence
* February 9
ESA extends the Cluster mission until the end of 2009
* January 14 �
Cluster detects invisible escaping ions

2008

*December 15
The science of space weather
* December 5
Looking at Jupiter to understand Earth
* October 17
Highlights from Cluster-THEMIS workshop
* August 27
Cluster examines Earth-escaping ions
* August 11
Electron trapping within reconnection
* June 27
Beamed radio emission from Earth
*June 9
Reconnection - Triggered by Whistlers?
*March 7
Solitons found in the magnetopause
*January 23
Cluster result impacts future space missions

2007

*December 6
Cluster explains nightside ion beams
*November 21
Cluster captures the impact of a Coronal Mass Ejection
*November 9
Cluster probes generalized Ohm's law in space

*October 22
Cluster monitors convection cells over the polar caps
*September 11
Cluster and Double Star pinpoint the source of bright aurorae
*July 26
Cluster helps reveal how the Sun shakes the Earth's magnetic field
*June 29
Cluster unveils a new 3D vision of magnetic reconnection
*June 21
Formation flying at closest-ever separation
*May 11
Cluster reveals the reformation of the Earth's bow shock
*April 12
Cluster finds new clues on what triggers space tsunamis
*March 26
First direct evidence in space of magnetic reconnection in turbulent plasma
*March 12
A leap forward in probing magnetic reconnection in space
*February 9
New insights in the auroral electrical circuit revealed by Cluster

2006

*December 29
1000th Orbit for the Cluster Mission
*December 6
Cluster finds magnetic reconnection within giant swirls of plasma
*November 13
Cluster takes a new look at the plasmasphere
*October 5
Double Star and Cluster witness pulsated reconnection for several hours
*August 24
Cluster links magnetic substorms and Earthward directed high-speed flows
*July 18
Magnetic heart of a 3D reconnection event revealed by Cluster
*June 20

*May 19
New Microscopic Properties of Magnetic Reconnection Derived by Cluster
*March 30
Cluster and Double Star reveal the extent of neutral sheet oscillations
*February 24
Cluster reveals fundamental 3-D properties of magnetic turbulence
*February 1
The Cluster Active Archive goes live
*January 11
Cover of Nature Magazine: Feel the Force

2005

*December 22
Cluster helps to protect astronauts and satellites against killer electrons
* September 21
Double Star and Cluster observe first evidence of crustal cracking
*August 10

*July 28
First direct measurements of the ring current
*July 14
Five years of formation flying with Cluster
*April 28
Calming effect of a solar storm
*February 18
Cluster will become the first multi-scale mission
*February 4
Direct observation of 3D magnetic reconnection

2004

*December 12
Cluster determines the spatial scale of high speed flows in the magnetotail
*November 2
Four-point observations of solar wind discontinuities
*September 17
Cluster locates the source of non-thermal terrestrial continuum radiation by triangulation
*August 12
Cluster finds giant gas vortices at the edge of Earth's magnetic bubble
ref name="Hasegawa et al., 2004">
*June 23
Cluster discovers internal origin of the plasma sheet oscillations
*May 13
Cluster captures a triple cusp
*April 5
First attempt to estimate Earth's bow shock thickness

2001–2003

*3 December 2003
Cracks in Earth's magnetic shield (NASA website)
*29 June 2003
Multi-point observations of magnetic reconnection
*20 May 2003
ESA's Cluster solves auroral puzzle
*29 January 2003
Bifurcation of the tail current
*28 January 2003
Electric current measured in space for the first time
*29 December 2002
Thickness of the tail current sheet estimated in space for the first time
*1 October 2002
Telescopic/Microscopic view of a substorm
*11 December 2001
Cluster quartet probes the secrets of the black aurora
*31 October 2001
First measurements of density gradients in space
*9 October 2001
Double cusp observed by Cluster
ref>
*1 February 2001 �
Official start of scientific operations

References

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Selected publications

All 3587 publications related to the Cluster and the Double Star missions (count as of 30 September 2022) can be found on th
publication section of the ESA Cluster mission website
Among these publications, 3094 are refereed publications, 342 proceedings, 121 PhDs and 30 other types of theses.

External links

ESA Cluster mission websiteThe Cluster Science Archive
the public data archive of the Cluster and the Double Star missions
ESA Cluster mission Twitter accountImperial College London role in the Cluster missionUniversity College London's Mullard Space Science Laboratory's role in the Cluster missionCluster: aurora explorer, an exhibit at the Royal Society Summer Exhibition 2011The Cluster Active Archive
(former public data archive, up to 2014)
Cluster mission article on eoPortal by ESA

{{DEFAULTSORT:Cluster (Spacecraft)
European Space Agency space probes
2000 in spaceflight
Geospace monitoring satellites
Geomagnetic satellites