This is how to generate and transfer 50,000,000 W/m2 at 5600K without even getting the reactor components hot.
https://brilliantlightpower.com/september-8-ran-tests-on-station-2/
This is how to generate and transfer 50,000,000 W/m2 at 5600K without even getting the reactor components hot.
https://brilliantlightpower.com/september-8-ran-tests-on-station-2/
Dr. Mills, your most recent post about adding hydrogen raises questions.
It does look like a much greater power, possibly MW.
The implication is that the ignition power is not different. Is that correct?
The heat is probably mostly due to ignition current. If you can get a lot more light power with same current, maybe you can make it run cooler and produce enough light to get high gain.
IOW, could this be the key to a cooler self-powered reactor that can run with much longer duration?