The whole point is that they put less energy into the target material than they got out of it, however much energy they had for the rest of the experiment isn’t relevant. The only part of this design that they are researching here is the fusion, everything else is supporting that research and is not been actively developed by this team.
There are other teams working on other reactor designs which increase efficiency in other areas.
It’s like saying that a rocket engine demonstration model doesn’t work because it doesn’t fly.
And the whole point of my comment is that people shouldn’t be wetting their pants thinking that fusion is right around the corner. This is just further proof of concept and does nothing to actually advance fusion power.
The whole point is that they put less energy into the target material than they got out of it, however much energy they had for the rest of the experiment isn’t relevant. The only part of this design that they are researching here is the fusion, everything else is supporting that research and is not been actively developed by this team.
There are other teams working on other reactor designs which increase efficiency in other areas.
It’s like saying that a rocket engine demonstration model doesn’t work because it doesn’t fly.
It’s a good example. I’d actually say test-firing a rocket and claiming you’re almost on the moon is still misleading, though.
Energy in over energy generated at the target has no practical significance. More output is better but that’s it. This is for marketing to funders.
And the whole point of my comment is that people shouldn’t be wetting their pants thinking that fusion is right around the corner. This is just further proof of concept and does nothing to actually advance fusion power.