Helium is a commodity that is key to every major growth theme in the global economy – space, AI, and healthcare. But almost nobody talks about it – and the helium supply picture has just become dramatically more complicated.
The launch of a single Falcon 9 rocket consumes roughly 14%-18% of the world’s daily helium production in a single ignition sequence. SpaceX launches Falcon 9 rockets dozens of times a year, with ambitions that stretch well beyond that frequency. The satellite industry is preparing for annual launch volumes of between 3,700 and 5,000 by 2030, as mega-constellations reach full deployment. Goldman Sachs anticipates 70,000 low Earth orbit (the region between 160 and 2,000 kilometres into space) satellite launches globally between 2025 and 2031. Every single one of them needs helium. There is no alternative.
So surely someone is producing more of it? They are not, at least not at anything close to the rate the market requires. Helium is not manufactured. It is extracted as a by-product of natural-gas processing in a small number of locations where underground concentrations happen to be commercially viable. The US and Qatar together account for more than 75% of global supply. Russia produces a significant share, but that supply is unavailable to Western markets. Algeria contributes a modest fraction. Everyone else is a rounding error.
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Qatar’s share, 30% of global supply, flows out of a single industrial complex at Ras Laffan. In March 2026, Iranian strikes forced QatarEnergy to cease production of liquefied natural gas (LNG) and associated products, including helium. Almost one-third of the world’s helium supply was removed from the market overnight. Spot prices doubled. The south site at Ras Laffan took direct hits and will not restart before late summer 2026. Permanent capacity reductions, analysts say, will take years to recover fully.
The Strait of Hormuz is a trigger, not the underlying problem. Even before the first missile flew, this market had endured four recognised major shortages over the past two decades, each lasting two to three years before any equilibrium was restored. The conflict simply made the market’s structural deficit visible. Compounding the supply picture is the nature of helium itself. It is the second-lightest gas on Earth. It escapes containment at a rate that makes strategic stockpiling impossible. You cannot build a meaningful reserve. When supply breaks, the market has no buffer.
Now consider who is competing for that inelastic pool of supply. Semiconductor makers use helium at nearly every stage of wafer production, and there is no substitute for its role in extreme ultraviolet (EUV) lithography, the process that makes the most advanced AI chips. The AI-driven chip market is set to double by 2030 at a compound annual growth rate above 11%. MRI machines make up 20% of the global demand for helium, each requiring an initial fill of 2,000 litres of liquid helium and continuous top-ups throughout their operational life.
As India and other large emerging markets rapidly expand healthcare infrastructure, that demand grows structurally. And then there is the quantum-computing sector, scaling fast and entirely dependent on liquid helium cooling to reach the cryogenic temperatures that make quantum processors function at all.
Rocketry, AI chips, medical imaging, and quantum computing. The three or four fastest-growing sectors in the global economy all compete for the same gas from the same small group of producers, and one of those producers has just been taken off the board for an indeterminate period.
The best helium stocks to buy now
Investors should note that SpaceX’s S-1 registration statement, filed ahead of what promises to be one of the most significant listings in a generation, conspicuously omits any reference to risk associated with helium – even though the company has already acknowledged, through its own CEO, that helium supply represents a binding operational constraint on its ambitions to grow. Elon Musk stated plainly that there is not enough helium produced on Earth to sustain a high-flight-rate Starship programme, a constraint significant enough that the vehicle had to be redesigned around it. That is not a footnote. That is a material operational risk.
Consider instead the industrial gas companies Linde (Nasdaq: LIN), Air Products & Chemicals (NYSE: APD) and Air Liquide (Paris: AI), the obvious primary beneficiaries of tighter supply and rising prices, with pricing power that will compound through long-term supply contracts. The UK angle deserves particular attention. Britain has no domestic helium production, no strategic reserve, and no formal critical-minerals designation for helium by the government. The NHS scanner estate, the National Quantum Computing Centre at Harwell and the defence-electronics supply chain are all exposed to a commodity that receives no policy attention in Whitehall. That is a gap waiting to be filled, and investors who identify it before policymakers do will have done so at the right time.
Helium has been treated as background infrastructure for too long, considered too cheap, too abundant, too boring to warrant serious analysis. That era is over. The commodity no one talks about is the one underpinning the launches everyone is watching, the chips powering the AI everyone is funding, and the scanners keeping hospitals operational. The question for investors is not whether helium matters. The question is how long the rest of the market takes to realise it.
This article was first published in MoneyWeek’s magazine. Enjoy exclusive early access to news, opinion and analysis from our team of financial experts with a MoneyWeek subscription.
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