Scientists at a nuclear fusion lab in the United Kingdom just broke the world record for the amount of energy produced in a single fusion reaction.

Scientists first demonstrated the ability to fuse two atoms in lab experiments in the 1930s. Nuclear science has come a long way since then, but still has not managed to harness the energy produced by nuclear fusion to generate electricity.

In early February, scientists at the Joint European Torus (JET) lab in Oxfordshire in the United Kingdom announced they had broken the world record for the amount of energy produced in a nuclear fusion experiment. They produced 59 megajoules of heat energy in a single fusion “shot” that lasted five seconds. This doubled the previous world record set by JET in 1997 but was still only enough to heat about 60 kettles of water.

So how excited should we be about the latest news? How much closer does this world record take us to getting electricity from fusion power — and what would success mean for the planet’s future energy mix?

The JET experiment is the world’s biggest nuclear fusion device. It uses an approach called magnetic confinement to fuse nuclei at very high speeds and temperatures inside a doughnut-shaped container called a tokomak.

Livia Casali, assistant professor in nuclear engineering at the University of Tennessee, Knoxville, says the latest result from JET confirms some of the choices made for the fusion reactors of the future — particularly around the materials used to line the inside walls of the tokomak.

“These results also confirm that we can achieve fusion energy using a deuterium and tritium fuel mix, which is the same fuel mix that we are planning to use for future fusion devices,” she says.

In particular, JET’s results are a proof of concept for ITER, a huge fusion reactor under construction in southern France and due to be ready by 2026.

“To make a fusion reaction is very easy, but that doesn’t mean that we’re able to produce energy,” says Angel Ibarra Sanchez, a research professor in fusion technology at the Centre for Energy, Environmental and Technological Research in Madrid, Spain’s national fusion laboratory.

Like JET, ITER won’t produce electricity — that will only happen once a demonstration reactor is built. Ibarra says the hope is that the first demo fusion reactor in Europe will be available around 2050. If these demo reactors are shown to work, he predicts the first generation of fusion power reactors could arrive in the 2060s or 2070s. “It will probably not be much faster than this,” he says.

Once fusion power arrives, Ibarra believes the energy it will generate — which releases no carbon dioxide and is dubbed “clean energy” — will be transformational. But he warns not to pin all hopes on fusion. “To think that the energy production in the future will be based in a single type of energy sources is not feasible. It’s not realistic,” he says. Instead, Ibarra thinks the energy combination of the future should be “a mix of solar energy, wind energy, and hopefully fusion energy.”

This story was excerpted from an article published by The Conversation. The full article and podcast can be read at this link: https://bit.ly/3vQ7zQz