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A major 'fusion breakthrough' was just officially announced in the US. But what does it actually mean?

  • Written by Nathan Garland, Lecturer in Applied Mathematics and Physics, Griffith University
A major 'fusion breakthrough' was just officially announced in the US. But what does it actually mean?

For the first time, scientists in the US have confirmed a fusion energy experiment achieved net gain. This means releasing more energy than it takes to initiate, demonstrating the physical basis for producing fusion energy in a controlled way.

This historic feat took place at Lawrence Livermore National Laboratory (LLNL) in California, using the National Ignition Facility experiment after decades of planning and research.

The milestone used a process called inertial confinement fusion. It involves bombarding a tiny gold cylinder containing a pellet of hydrogen fuel – about the size of a pencil eraser – with the world’s most powerful laser system comprised of 192 laser beams. This produces hot plasma and X-rays that trigger an implosion, compressing the fuel pellet and kicking off a fusion reaction that unleashes energy.

The team at LLNL reports they delivered “2.05 megajoules of energy to the target, resulting in 3.15 megajoules of fusion energy output”.

A golden cylinder that looks similar to a sewing machine thread spool
The small device containing fuel used at the National Ignition Facility. LLNL

To quickly review, the goal of fusion energy is exactly that – to heat up and compress fuel particles so they undergo fusion: merging together to create a heavier atomic particle, unleashing energy in the process.

Fusion is what powers stars like our Sun, but it can only occur under specific conditions. Atoms must be subjected to immense heat and pressure to overcome tremendous physical forces and fuse. It is the opposite of nuclear fission used in current nuclear power plants.

The lofty end goal for harnessing fusion for power production is to generate vast amounts of clean, sustainable electricity.

Read more: A new twist on fusion power could help bring limitless clean energy

What is ‘net gain’ and why is it a big deal?

Today’s announcement is akin to other historic milestones such as the four-minute mile, or the Wright brothers’ first controlled, sustained flight of a powered aircraft. People had run races before, or experienced temporary flight through gliders, but these milestones had been thought of as impossible pipe dreams. They were eventually made reality through long-term effort – and it feels like this is one of those historic moments for fusion science.

A net gain result in a fusion experiment essentially means producing more energy through fusion reactions than the amount of energy put into the system to start said reaction.

This is usually measured as a Q factor, which is the ratio of energy out to energy in. For decades, the holy grail in fusion science has been achieving Q > 1.

A Q factor of more than 1 means you got out more energy than what you put into the fuel. This is generally known as “scientific breakeven”. The result announced today translates to a Q factor of about 1.5.

The complication around measuring your experiment in this way is that it does not account for energy inefficiencies in how you power the laser from the electricity grid, or how you may generate electricity from the energetic particles created from the fusion reactions. Just like current electricity generation methods, no process is 100% efficient and we lose bits of energy along the way.

When you account for these effects, you then start to talk about an “engineering breakeven”.

Practically, most people seem to think higher Q factors of 10, 100 or even 1,000 might be needed to achieve a viable product for electricity generation from fusion. This is what the fusion community will be striving towards with future efforts.

Read more: How far has nuclear fusion power come? We could be at a turning point for the technology

How does this result compare to other fusion experiments?

The most popular global approach for confining fusion reactions is not with lasers – as done at LLNL – but with magnetic fields. This method is called magnetic confinement fusion. In the process, the fuel is heated up to kick out electrons from the atoms to create a plasma of electrons and positively charged nuclei. These nuclei are then fused together.

Since the plasma in these fusion devices is hotter than the core of our Sun, strong magnetic fields are used to control the shape and direction of the plasma so it doesn’t damage the walls of the machine.

Magnetic confinement devices have repeatedly reached plasma temperatures of over 100 million degrees Celsius, but to date, net gain has not been reached in such a device. There are plans afoot to hopefully achieve this with the International Thermonuclear Experimental Reactor (ITER) under construction in France.

ITER is the world’s biggest science experiment and has been designed to reach a Q factor of 10, producing 500 megawatts of fusion power from 50 megawatts of injected power.

Where to from here?

For now, this result means a lot more to the scientific community than it probably does for folks waiting for a new commercial electricity alternative. We’ll need to be a bit more patient for those prospects.

Whether using lasers or magnetic confinement, fusion scientists around the world need to continue along their path if we’re going to achieve commercially viable fusion power production. As we continue on this journey we’ll likely see continued development of the technologies needed and keep climbing up the ladder towards higher values of Q.

In the short term, this result will likely lead to more concrete plans and funding from government and private industry towards inertial confinement fusion experiments, and hopefully other fusion concepts as well.

For example, following today’s LLNL announcement the US has committed over US$600 million towards the inertial fusion program to build upon this result. This is in addition to their commitment to a “Bold Vision for Commercial Fusion Energy” outlined earlier in 2022.

The achievement is a watershed moment, showing the public, governments, and investors that despite this being an incredibly difficult science and engineering problem to solve, we are making real progress.

It took many years and a great deal of work to launch the first commercial airline flight after the Wright brothers first took to the skies. In much the same way, there is a path ahead for commercial fusion, but we have to put the resources and effort in to get there.

Authors: Nathan Garland, Lecturer in Applied Mathematics and Physics, Griffith University

Read more https://theconversation.com/a-major-fusion-breakthrough-was-just-officially-announced-in-the-us-but-what-does-it-actually-mean-196474

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