30.04.2026
From Gernot Fritz
In a previous post, we asked a deceptively simple question: Who owns the Moon? The answer led us into the core principles of space law, in particular the idea that outer space is not subject to national appropriation.
But if no one owns space, a more pressing question quickly follows: what happens when something goes wrong?
A satellite breaks apart in orbit, creating thousands of fragments that threaten other missions. A rocket stage re-enters the atmosphere and debris lands on foreign territory. Two satellites collide, disrupting communication services across entire regions. These are no longer hypothetical scenarios, but increasingly realistic outcomes of a rapidly expanding space economy.
As space activity grows, so does the likelihood of incidents. And with that, liability moves from an abstract legal concept to a very practical question: who is responsible for the damage?
A liability regime unlike any other
One might expect space law to follow familiar legal patterns – fault-based liability, negligence standards, and complex causation analysis. International space law takes a different route.
The Convention on International Liability for Damage Caused by Space Objects (Liability Convention) establishes a structured liability regime that does not rely on a single standard. Instead, it differentiates depending on where the damage occurs. This distinction is not merely technical; it is the organising principle of the entire system.
What emerges is a dual regime that reflects both legal policy choices and the operational realities of space activities.
Absolute liability on Earth
Where damage occurs on Earth – for example due to falling debris – liability is absolute. The affected state does not need to prove fault or negligence. It is sufficient that the damage was caused by a space object.
This strict approach is deliberate. It reflects a clear prioritisation of victim protection. Those affected on the ground should not bear the burden of reconstructing events that originate in a highly complex and often opaque space environment.
In that sense, the liability regime externalises the risks of space activities towards those who conduct them, rather than those who happen to be affected by their consequences.
Fault-based liability in outer space
The logic shifts once we move beyond Earth. For damage occurring in outer space – such as collisions between satellites – liability is fault-based. In these cases, the injured party must demonstrate that the damage resulted from the fault of another actor.
This creates a system in which the applicable liability standard depends on location: strict on Earth, fault-based in space. The distinction reflects a pragmatic compromise. Outer space is an inherently high-risk environment, characterised by limited control, high speeds and imperfect information. A strict liability regime in that context would be difficult to sustain in practice.
The result is a calibrated allocation of risk that balances protection on Earth with operational feasibility in orbit.
The central role of the launching state
A second defining feature of the regime is that liability does not primarily attach to private operators. Instead, it is channelled through states – specifically, the “launching state”.
This concept is deliberately broad. It includes not only the state that carries out a launch, but also those that procure it or provide the territory or facilities from which it is conducted. In practice, this often leads to multiple launching states for a single space object, all of which may be held jointly and severally liable.
From an international law perspective, this design serves a clear purpose: it ensures that there is always an identifiable and accountable actor. Responsibility is anchored at the level of states, even if the underlying activity is commercial in nature.
No direct claims for private actors
The state-centric structure continues at the level of enforcement. The Liability Convention does not provide for direct claims by private parties. Instead, claims are brought state-to-state.
For private companies, this means that damage does not automatically translate into an enforceable international claim. They must rely on their home state to espouse the claim on their behalf. Disputes are then handled through diplomatic channels, which may lead to negotiations or the establishment of a claims commission.
Even in a highly commercialised environment, access to remedies at the international level remains mediated by states.
Where private risk re-enters the system
At first glance, this could suggest that private actors operate largely shielded from liability exposure. In reality, the opposite is the case.
The international regime is only one layer of a broader risk architecture. National space laws and licensing regimes play a decisive role in allocating financial responsibility. Private operators typically require authorisation to conduct space activities, and that authorisation comes with conditions. These include compliance with technical standards, proof of financial capacity and, in most cases, mandatory insurance coverage.
Insurance is therefore not merely a commercial tool. It is a structural component of how the liability regime functions in practice.
Equally important is the possibility of recourse. If a state is held liable at the international level, national legal frameworks will usually allow it to recover the corresponding amounts – in whole or in part – from the operator responsible for the activity. What appears as state liability externally is, in economic terms, often borne by private actors internally.
This creates a layered system: outward-facing responsibility at the level of states, inward-facing financial exposure at the level of operators.
Liability in a commercialised space environment
The original liability regime was designed in an era dominated by state actors and relatively few space objects. Today’s reality looks very different.
Private companies deploy large satellite constellations, launch services are fully commercialised, and orbital space is becoming increasingly congested. As a result, the application of liability rules becomes more complex.
Attributing fault in crowded orbital environments is far from straightforward. Establishing causation in collision scenarios can be challenging. Multiple actors are involved across the lifecycle of a space object – from manufacturing and launch to operation and decommissioning.
At the same time, insurance and contractual arrangements take on a more central role. In practice, risk is often managed less through the formal invocation of international liability rules and more through ex ante allocation in contracts, regulatory compliance and insurance structures.
A regime under pressure
As space becomes more densely populated and technologically advanced, the existing liability framework is increasingly tested.
New questions arise. How should fault be assessed in autonomous or AI-supported systems? How should large-scale debris events affecting multiple operators be addressed? Are existing insurance models sufficient for mega-constellations? And how far can states realistically shift financial exposure to private actors?
These questions illustrate a broader shift. Liability in space is no longer just about legal attribution. It is becoming a central element of risk governance in a complex, multi-actor ecosystem.
Conclusion
Liability in outer space is governed by a structured international regime centred around the Liability Convention. At the same time, that regime operates in close interaction with national law, insurance markets and contractual risk allocation.
States remain the focal point at the international level. But economically, risk increasingly resides with the private actors driving the expansion of space activities.
The key question is therefore not only who is liable in theory. It is how liability is distributed, managed and ultimately financed in practice.
And this is where the next layer of the discussion begins: if liability is structured at the international level, but operationalised through national frameworks, how do different jurisdictions implement and shape that system?
This will be the focus of the next posts in this series, where we turn to emerging regulatory approaches – including current developments at EU level.
If you are navigating space-related activities – whether as an operator, supplier or investor – the key challenge is rarely the legal framework in isolation. It is how that framework translates into concrete risk allocation, contractual structures and regulatory compliance.
This is exactly where we can support.
