-----Original Message----- From: [email protected] My guess as to how it works:- Hydrinohydride is a small heavy negative particle with a mass about 10 times greater than a negative muon. These form the equivalent of muonic molecules (Hydronic molecules?) with Ni & Li, allowing them to approach one another close enough to facilitate neutron hopping (tunneling) in a reasonable time frame, especially at elevated temperatures.
Hi Robin, I like this hypothesis as a major part of the emerging picture, assuming TIP2 is not part of an elaborate scam. f/H in some form is especially interesting as an initial step in a more complex reaction which is started by hydrogen shrinkage. f/H could be an isomer which can be contained in alumina via nickel bonding. The reaction may be sustained with SPP over the long run. SPP could supply the same intense high negative field as the f/H- or the two could work together. It is more than my opinion that this reactor design cannot enclose gaseous hydrogen when hot, as I have confirmed this from an alumina sales engineer today. This cannot work as a hydrogen reactor unless the hydrogen finds a way to bind to something at 1300 C and that feat is not easy. However ... it could work as a pychno/lithium/nickel reactor. For those who were not around when Arata's experiments were at center stage, "pychno" is his name for dense hydrogen. It is also known as f/H, hydrino, IRH, DDL, hydrex and probably a few other names. Presumably, pychno binds with nickel and stays in the reactor when gaseous hydrogen would escape. PLN has a nice ring to it.
