Thanks to Jonas Matuzas for sharing the following link in the Always Open Thread from New Energy Times:
https://news.newenergytimes.net/2025/11/29/an-extraordinary-lenr-reactor-design/
It reports on a paper by Tadahiko Mizuno published this week in the European Journal of Applied Physics titled “Analysis of Trigger Input for Nuclear Reactions Using SUS Alloys”. The link to the full text of the paper is:
https://www.ej-physics.org/index.php/ejphysics/article/view/393
The Abstract:
The authors tested various metals and alloys as reactants. Since 2020, we have investigated numerous phenomena that occur when a cylindrical container machined from a stainless-steel container is heated. Using this method, we have confirmed abnormal heat generation (thermal output – thermal input > 0), neutron generation, electromagnetic wave generation, and, when a collecting electrode is installed in the container, electromotive force generation. We analyzed the input power that triggers these phenomena and reported the results here.
One image from the paper with an explanation:
“The chamber temperature is gradually increased, with the total excess heat (red) reaching about 1.6 kW at about 3 ks. The net excess heat also reaches about 0.2 kW at 2 ks. The input power ultimately reaches 720 W. The furnace temperature (black) rises to 750°C at 20 ks.”
Two quotes from the paper:
“Neutron generation is clearly caused by container temperature change, not temperature or excess heat generation. This phenomenon also shows a correlation over a wide range of temperature change rates.”
“The fact that electromotive force is generated even when the container temperature drops suggests that the generation of electromotive force is affected by both the container surface temperature and the rate of temperature change.”
