tag:blogger.com,1999:blog-326167780677397310.post6805539201923969626..comments2024-03-27T21:35:04.988-07:00Comments on EGO OUT: 22-23 SEP PAPER PREVIEW BY JEAN-LUC PAILLET & INFOGeorgina Popescuhttp://www.blogger.com/profile/04628821029016016988noreply@blogger.comBlogger1125tag:blogger.com,1999:blog-326167780677397310.post-9745942437523987622015-09-23T23:08:43.315-07:002015-09-23T23:08:43.315-07:00Holmlid has seen muons produced inside his reactor...Holmlid has seen muons produced inside his reactor when light from fluorescent bulbs in his lab lit the iridium metal that had iron oxide doped with potassium spread on its surface. This type of light has green, blue, and UV wave length components. Fluorescent lights are only 86% efficient in converting UV into visible light(1). Therefore, this type of light source produces UV. UV is reflected to a maximum extent by iridium. This refection efficiency is the key to plasmonic power generation. In this Holmlid LENR process, The nanoplasmonic reaction is therefore maximized in the UV wave lengths when iridium is used as the substrate metal. A key LENR design consideration is matching the substrate metal and its associated reflective light characteristics with the type of light used as a stimulator.<br /><br />With these facts in mind, Holmlid does not need a laser to stimulate his reaction, he could just as well use a more cost effective high intensity UV LEDs to produce the UV light that can stimulate the generation of muons. His laser produces green light(532 nm). Otherwise, Holmlid could apply more photon power as input into his reaction by using a UV laser.<br /><br />(1) https://www.youtube.com/watch?v=21TJYkhP8gQAxilhttps://www.blogger.com/profile/07190120527431077518noreply@blogger.com