In reply to Jones Beene's message of Fri, 18 Dec 2009 12:51:57 -0800: Hi, [snip] >For this to happen as a single event, all must be at the same place at the >same time. This condition describes what can be called a super-cluster. For >all members of the cluster to enter at the same time, they must be located >close together compared to nuclear dimensions and their nuclear charge must >be hidden from the target nuclei. These requirements imply existence of an >unusual bonding state that can form within a group of deuterons. The nature >of this state will not be discussed here, but will be a subject for future >papers. END of quote [snip] I have already described this bonding state in a previous post. It occurs because the inter nuclear magnetic bond is stronger for small Hydrino molecules than it is for normal Hydrogen, and the smaller the molecule, the stronger the bond.
This means that such molecules can clump together magnetically. It's like a clump of bar magnets arranged anti-parallel so that when viewed from one end the clump looks like a checkerboard of N and S poles. The simplest such clump comprises two magnets. Bar magnets are often stored in pairs with "keepers" to help them retain their strength over time. If the magnetic field strength goes as the inverse cube of the separation distance, and this in turn goes as the square of the quantum level number, then the magnetic bond strength should go as the inverse sixth power of quantum level number. There is another possibility that I call Russian Dolls, but that can wait for another day. Regards, Robin van Spaandonk http://rvanspaa.freehostia.com/Project.html
