22/08/2024
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On 8 September 2024, the primary of 4 satellites that make up ESA’s Cluster mission will reenter Earth’s ambiance over the South Pacific Ocean Uninhabited Space.
This marks the top of the historic mission, over 24 years after it was despatched into area to measure Earth’s magnetic surroundings. Although the remaining three satellites may even cease making scientific observations, discoveries utilizing current mission information are anticipated for years to return.
This ‘focused reentry’ is the primary of its variety. ESA’s efforts to make sure a clear finish to the Cluster mission transcend worldwide requirements, making the company a world-leader in sustainable area exploration.
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A lifetime monitoring area climate
Launched in 2000, Cluster has spent 24 years learning maybe the one factor that makes Earth a singular liveable world the place life can thrive: its highly effective magnetic protect, the magnetosphere.
Like an unlimited umbrella, the magnetosphere protects us from many of the driving rain of particles that the Solar relentlessly sends in our course.
We call the influence of the solar wind on Earth’s magnetic environment ‘space weather’. And until Cluster came along, space weather remained something of a mystery.
“For over two decades, Cluster has shown us time and time again how important the magnetosphere is in shielding us from the solar wind,” says Cluster Mission Manager Philippe Escoubet. “It has watched the effects of solar storms to help us better understand and forecast space weather.”
A zero-debris finale
Cluster was never designed to last this long, nor was it designed for such a safe finale. It was initially launched on a two-year mission to study the Sun–Earth interaction. Because it was carrying out such impressive and world-changing science, ESA’s spacecraft operators kept it going.
But all good things must come to an end, and Cluster’s time has finally come. With this targeted reentry, ESA is turning Cluster from a pioneer in space weather monitoring to a pioneer in mitigating space debris – two key elements in the agency’s space safety goals.
Without intervention, the four Cluster satellites would have reentered naturally in a less predictable manner, potentially over a more densely populated region. By targeting the satellites reentries, ESA is taking the opportunity to ensure that Cluster’s demise doesn’t contribute to the rocketing amount of space junk in orbit around Earth.
Salsa’s last dance
Of the four Cluster satellites – nicknamed Rumba (Cluster 1), Salsa (Cluster 2), Samba (Cluster 3) and Tango (Cluster 4) – Salsa will be the first to take the plunge back into Earth’s atmosphere. It is targeting a specific region of the South Pacific Ocean that is as far as possible from populated regions.
“Back in January we tweaked Salsa’s orbit to make sure that on 8 September it experiences its final steep drop from an altitude of roughly 110 km to 80 km,” explains Cluster Operations Manager Bruno Sousa. “This gives us the greatest possible control over where the spacecraft will be captured by the atmosphere and begin to burn up.”
Bruno’s team is now watching the satellite from a distance. A targeted reentry allows for so much predictability in the reentry time and location that there is no need for further manoeuvres.
Despite being confident that no surviving fragments will fall anywhere near land, we still have very little data about how spacecraft behave as they pass through the lower layers of the atmosphere. We would like to know more to predict even better the time and location of satellite reentries and ensure the safety of humans on Earth.
ESA is considering observing Salsa’s reentry from an aircraft; this will be confirmed later in August. The four Cluster satellites are identical and so by watching them reenter the atmosphere with slightly different trajectories and in different weather conditions, we would have the unique opportunity to conduct a valuable reentry experiment to study the break-up of satellites.
A brighter future
Cluster’s reentry follows those of ESA’s Aeolus and ERS-2 Earth observation missions. ESA is setting a precedent for a responsible approach to reducing the every-increasing problem of space debris and uncontrolled reentries.
With this targeted reentry, ESA is again pioneering a new strategy to reduce its environmental impact by disposing of its missions more safely and sustainably than envisaged at the time of their design.
“By studying how Salsa burns up, which parts might survive, for how long and in what state, we will learn much about how to build ‘zero-debris’ satellites,” explains Tim Flohrer, Head of ESA’s Space Debris Office.
“The lessons learned from this activity will help turn targeted reentries into a safe and well-understood option for the disposal of other space missions in similar orbits, such as Smile and Proba-3.”
What’s next?
Following Salsa’s reentry, the three remaining Cluster satellites will enter ‘caretaker’ mode; whilst they will not be making scientific measurements, operators will be monitoring them to minimise the risk of collision with other satellites or Earth itself.
Bruno’s team will adjust the orbit of Rumba (Cluster 1) in August 2024 in preparation for a similar targeted reentry in November 2025. They will then manoeuvre Samba (Cluster 3) and Tango (Cluster 4) in November 2024 ready for Cluster’s final goodbye in August 2026.
At the end of 2025, ESA plans to launch its next mission to tackle Earth’s magnetic environment: the Solar wind Magnetosphere Ionosphere Link Explorer, or Smile for short. A joint venture with the Chinese Academy of Sciences, Smile will build upon Cluster to reveal even more about the complex and intriguing magnetic environment surrounding planet Earth.
Leading up to and during Salsa’s reentry we will be providing updates via the Rocket Science weblog, and the @ESA_Cluster, @esaoperations and @esascience Twitter accounts.
For extra data, please contact ESA Media Relations:
media@esa.int
