The US National Ignition Facility has achieved even higher energy yields since breaking even for the first time in 2022, but a practical fusion reactor is still a long way off
I agree it’s good that the article is not hyping up the idea that the world will now definitely be saved by fusion and so we can all therefore go on consuming all the energy we want.
There are still some sloppy things about the article that disappoint me though…
They seem to be implying that 500 TW is obviously much larger than 2.1 MJ… but without knowing how long the 500 TW is required for, this comparison is meaningless.
They imply that using more power than available from the grid is infeasible, but it evidently isn’t as they’ve done it multiple times - presumably by charging up local energy storage and releasing it quickly. Scaling this up is obviously a challenge though.
The weird mix of metric prefixes (mega) and standard numbers (trillions) in a single sentence is a bit triggering - that might just be me though.
I agree it’s good that the article is not hyping up the idea that the world will now definitely be saved by fusion and so we can all therefore go on consuming all the energy we want.
There are still some sloppy things about the article that disappoint me though…
They seem to be implying that 500 TW is obviously much larger than 2.1 MJ… but without knowing how long the 500 TW is required for, this comparison is meaningless.
They imply that using more power than available from the grid is infeasible, but it evidently isn’t as they’ve done it multiple times - presumably by charging up local energy storage and releasing it quickly. Scaling this up is obviously a challenge though.
The weird mix of metric prefixes (mega) and standard numbers (trillions) in a single sentence is a bit triggering - that might just be me though.