Andrea Rossi gave an interesting reply to a post on the Journal of Nuclear Physics by Axil (a frequent commenter here). I don’t want to post all of Axil’s post here (link on the JONP is here
)
Here are the first two paragraphs of Axil’s post:
In your design of the NGU, the efficiency of photoelectric conversion to more than 90% is unprecedented. Without stating exactly how this remarkable achievement was accomplished, was such optimization as provided by the AI as follows performed?
With the light produced by an exciton polariton condensate, would there be a special circumstance where the photoconverting chip would produce very high efficiency conversion to electrical power?
Rossi’s response:
Andrea Rossi
July 12, 2025 at 4:08 AM
axil:
Thank you for your intelligent comment.
Answers:
1- yes
2- your hypothesis is correct in relation to photoconverting microchips
Warm Regards,
A.R.
It’s rare, but happens sometimes, when Rossi compliments someone on an “intelligent” comment or question. And here he seems to gives some confirmation about one of the mechanisms involved in the E-Cat NGU: photoelectric conversion.
Rossi has stated in the past that the E-Cat NGU has the ability to produce light, electricity and heat, and that he can balance the proportion of each. As I understand it, the current NGU is designed to produce the maximum amount of electricity because of the universal demand for electricity.
