Comment by tsimionescu
4 days ago
If you have a process where it takes 5MW to produce one component and 80KW to convert that component into the final product, and you increase the efficiency of the second step 8 times so it only takes 10KW, that's real and awesome, but still almost irrelevant to the overall efficiency of the process. I have no idea what the actual numbers are, just stating the general concept.
Conversely efficiency is a lot less important if it unlocks capability you otherwise don't have at all.
Antimatter is a unique element: nothing else can do what it does. The game changer would be producing industrially useful amounts for further experimentation.
(Antimatter chemistry would be incredibly interesting and quite possibly a practical way to actually use antimatter - shoot the beam into a reaction or solid matrix to do interesting reactions due to the electronic properties before it annihilates).
This article is about an efficiency gain, not about any new source of antimatter or any newly discovered property or reaction. And, getting industrial levels will require massive efficiency gains, so we're back to this discussion.
It's about a production rate increase, not an efficiency gain.