A new CRASH Clock measures the chance of satellite collisions, and it’s ticking down fast
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There are more than one million pieces of lethal debris that are too small to be tracked and that satellites risk colliding with in low-Earth orbit.<br>(Getty/Unsplash+)
https://theconversation.com/a-new-crash-clock-measures-the-chance-of-satellite-collisions-and-its-ticking-down-fast-283481
https://theconversation.com/a-new-crash-clock-measures-the-chance-of-satellite-collisions-and-its-ticking-down-fast-283481
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Imagine a piece of space debris the size of a hockey puck slams into a Starlink satellite at about 10 kilometres per second. The kinetic energy is equivalent to two kilograms of TNT, or a fully-loaded semi-truck travelling at 100 kilometres an hour.
The Starlink satellite sprays out dozens of new debris pieces into an expanding cloud. Other satellites will pass by the new debris within minutes — some will need to manoeuvre to avoid yet another collision.
Read more:<br>As corporations race for the stars, we need international collaboration on space governance
As corporations around the world continue to fill low-Earth orbit with megaconstellations, such collisions are increasingly likely. We have developed something called the CRASH Clock to measure this. It asks a simple question: if all satellites in orbit suddenly lost the ability to manoeuvre and control their orientation, how long would it take for two to come close enough to crash?
In 2018, before megaconstellations began launching, the CRASH Clock value was 164 days. It has been steadily dropping since then. Our new research finds that as of May 2026, it is at 2.5 days.
Lethal pieces of debris
Satellites fragment for a variety of reasons. Sometimes they explode internally, as happened to Starlink 34343 in March 2026. Sometimes they collide with debris or a meteoroid. Sometimes it’s even on purpose, for example when Russia tested an anti-satellite weapon in 2021.
When a satellite collides with debris, ground-based radar stations gather information and send alerts to satellite companies and government agencies, who scramble to assess how dangerous low-Earth orbit has become and protect their satellites. Typically it takes about 100 days to catalogue half of the debris from a collision event like this.
A satellite breaks up, creating many pieces of debris.<br>(ESA/ID&Sense/ONiRiXEL)
Today, there are more than 10,000 SpaceX Starlink satellites and 5,000 other satellites orbiting above our heads. There are tens of thousands of large pieces of debris with well-measured orbits, which often need to be avoided by satellites with onboard propulsion systems.
There are also more than one million pieces of potentially lethal debris that are too small to be tracked, some just like the hockey puck in the hypothetical scenario above.
Frequent close calls
We haven’t had a satellite-on-satellite collision since 2009, when the Iridium 33 and the defunct Cosmos 2251 collided at an altitude of 770 kilometres, even though there are nearly 20 times more satellites in orbit today.
This is due to careful satellite constellation design, station-keeping manoeuvres, collision avoidance manoeuvres and to some extent, luck.
However, close approaches happen very frequently. Approximately every two minutes, a satellite in the Starlink megaconstellation makes a manoeuvre to avoid another satellite or debris. Currently, they manoeuvre whenever the calculated probability of collision rises above one in 30 million — a successfully conservative approach. That made for around 300,000 manoeuvres in 2025.
The collision-avoidance manoeuvre rate is increasing over time as more and more satellites are launched. The likelihood of a collision with an untracked piece of debris is also increasing over time.
If other satellites are hit by collision debris, more debris clouds will form, possibly causing even more collisions. With clouds of debris come clouds of uncertainty. These clouds also quickly shear into thick rings.
This animation shows active satellites and space debris of different sizes that were in orbit around Earth in 2023.<br>(ESA)
A fragile house of cards
The CRASH Clock highlights how reliant we are on flawless operations to avoid collapsing the fragile house of cards we’ve built in low-Earth orbit.
The CRASH Clock value can be calculated from the publicly available orbits of all satellites and tracked debris. While the calculation we use is based on a worst-case scenario — that all the satellites in orbit suddenly lose the ability to manoeuvre and control their orientation — this situation is not impossible.
An exceptionally strong solar storm, a bad software update or a cybersecurity event are sobering possibilities that could trigger widespread satellite control outages.
The CRASH Clock value over time has steadily...