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Newsgather
GeriHelium-3: The Expensive Gas Stored in Beer Kegs for Quantum Computing and Fusion
Helium-3: The Expensive Gas Stored in Beer Kegs for Quantum Computing and Fusion
Gelişiyor
BBC Business16.06.2026Teknoloji4 dk okumaUnited Kingdom

Helium-3: The Expensive Gas Stored in Beer Kegs for Quantum Computing and Fusion

Hızlı Bakış

  • Lancaster University stores valuable Helium-3 gas, costing $2,000 per litre, in beer kegs for quantum computing and fusion research.
  • With current supply from nuclear weapons limited and future demand rising, companies are exploring lunar extraction, though challenges remain regarding concentration and cost.

Yapay zekâ özeti

Neden Önemli?

Helium-3, an expensive isotope, is crucial for quantum computing and fusion energy. Its primary source is nuclear weapons decay, but future demand may outstrip supply, prompting interest in lunar extraction.

Yazı boyutu

One of the most valuable assets owned by Lancaster University is stored in beer kegs.

But it's not in one of the student bars.

In a carefully locked laboratory rows of metal kegs are arranged on shelves and linked together with spindly copper pipework.

The containers aren't loaded with prize beer but rather a gas called helium-3, one of the most expensive materials in the world. A single litre costs roughly $2,000 (£1,500), though the price can fluctuate.

"The lab has been going for 50 years or so. Back then, the helium was quite cheap," says Dima Zmeev, senior lecturer. "Our very wise predecessors stocked up."

In the near future, more people could be looking to build up such a stockpile. Helium-3 has applications in quantum computing and nuclear fusion. However, the main source of it today is tightly controlled – it comes from nuclear weapons. Specifically, from the decay of tritium, a form of hydrogen, inside those weapons.

Around the world, tens of thousands of litres of helium-3 are likely to be produced this way every year, estimates David McCollum, distinguished scientist at Oak Ridge National Laboratory in Tennessee. But future demand could far exceed that supply.

Some entrepreneurs and researchers say we need new sources of helium-3. It exists in the ground, though generally at very low concentrations.

However, samples of moon dust, or regolith, from the Apollo missions suggest it may be present there at relatively high concentrations. As such, plans are now afoot to recover helium-3 from the moon.

Helium-3 is an isotope of helium, defined by the number of neutrons in the atom's nucleus. Helium-4, with one additional neutron, is the comparatively cheap version – a gas that fills children's party balloons.

Zmeev uses helium-3 in physics experiments. For example, he fills tiny chambers with the stuff, in a project to detect a type of mysterious dark matter particle.

Should such a particle knock into one of the helium-3 atoms, it would make them all jiggle. This generates heat and that slight temperature rise can be measured.

The helium-3 can be re-used again and again.

Scientists mix helium-3 and helium-4 together at very low temperatures to create the lowest temperatures in the known universe, down to the millikelvin range (-273C).

When helium-3 atoms gradually separate from a dilute mixture containing the two isotopes, they form a pure helium-3 layer on top. This separation is a phase change that consumes energy, inducing a cooling effect, like when steam evaporates off a cup of hot water.

Helium-3-based cooling, or dilution refrigeration, is crucial for quantum computers.

And helium-3 could also be used in some nuclear fusion reactors, external to one day create vast amounts of clean energy.

No-one knows with certainty what kind of helium-3 concentrations are present on the moon.

Paul Burke, at Johns Hopkins Applied Physics Laboratory, says Apollo regolith samples might have lost some of their helium-3 on their return to Earth, skewing our understanding of how much is there.

Plus, there might not be as many helium-3 hotpots as hoped, or they could be depths that are difficult to access. "It's important that we understand where the helium-3 is," says Burke.

As Space News reported last year, external, lunar concentrations – perhaps between a few parts per billion (ppb) and 20-something ppb – could require excavating and processing hundreds of thousands of tonnes of the regolith just to obtain one kilogram of Helium-3. A "mountain-moving" prospect, says Burke.

"We're not ignoring the fact that we've got to process large amounts of regolith," says Meyerson. Is the plan economically sensible? "We have run the numbers… for everything we need to get to the moon, extract the [Helium-3] and bring it back to Earth."

Interlune declined to share those numbers with the BBC, or estimates for the total cost of developing its technology.

Listen: Should we mine the moon?

Another US company, Astrotech Corporation, has also announced its intention to go to the moon. In its case, via a SpaceX Starship rocket. Astrotech would extract helium-3 from regolith by heating it up. Tom Pickens, chief executive and chief technology officer says, "All of it is challenging."

In previous space-based applications, his company made mass spectrometers, instruments that identify materials such as chemical elements and measure their concentrations.

Work continues on a prototype for lunar helium-3 extraction and Pickens is bullish: "You'll see it."

The company has "seven or eight" people working on the project, he adds.

Quantum computers could eventually require thousands of litres of helium-3, depending on their design, suggests McCollum. He and colleagues recently published a paper, external scrutinising the energy and resource requirements of these devices.

This means that the lunar helium-3 projects are already attracting interest. Helsinki-based quantum computing company has signed a $300m (£223m) deal , externalwith Interlune, for 10,000 litres of helium-3 annually from 2028-37.

Bundan Sonra Ne Olabilir?

Yapay zekâ öngörüsü — kesinlik taşımaz

  • Lunar Helium-3 extraction projects will attract significant investment and technological development.

    Muhtemel · Orta vadede

  • Quantum computers will eventually require thousands of litres of Helium-3.

    Muhtemel · Uzun vadede

Açık Sorular

  • What are the exact concentrations of Helium-3 on the moon?
  • Is lunar Helium-3 extraction economically viable?
  • What are the geopolitical implications of moon mining?

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Bu haber ilk olarak şurada yayınlandı: BBC Business.

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