It is good to see work on a thing that has a chance of working, eventually, possibly, usefully.
If it doesn't work out, we haven't already sunk $billions into it. If it works at all, a D-H3 or even p-B device should be possible, for aneutronic fusion, that could possibly be of some actual value.
Historically, the issue with z-pinch has been that the electrodes start to evaporate before you can get to a useful energy density. You need to dump many thousands of amperes through a small area to squeeze the deuterium. Anything that involves kiloamps will be hard on your materials.
There is a company that has been working on a similar device for 15 years or so.
https://lppfusion.com/
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[ 4.1 ms ] story [ 17.4 ms ] threadIf it doesn't work out, we haven't already sunk $billions into it. If it works at all, a D-H3 or even p-B device should be possible, for aneutronic fusion, that could possibly be of some actual value.
There is a company that has been working on a similar device for 15 years or so. https://lppfusion.com/