Bob Higgins-- I think you are correct that there is proposed a condensed matter per the Olafsson presentation. It seems to be a crystal-like item with a sea of electrons not associated with any given positive charge in the condensed item. Its clearly different from the model of a normal crystal lattice that entails a fairly large ion around a positively charged nucleus with many electrons of the inner shells captive to each of the positive nuclei.
The theory presentation does not address the question of the state of the electrons in the sea of condensed matter. Are they paired? If unpaired, what is the magnetic susceptibility of the condensed state? My thought is that high magnetic B fields may be associated with the condensed state when subject to the intense magnetic field of the laser. The laser frequency may be very important to effect the largest B field, or whatever B field works the best to cause the reaction to occur at a reasonable rate. Jones has it wrong IMHO. Its not what I understand as a DDL atom. Bob Cook From: Bob Higgins Sent: Tuesday, April 05, 2016 7:42 AM To: vortex-l@eskimo.com Subject: Re: [Vo]:has this document been saved to the LENR library? Jones, isn't there a distinction between [UDH and UDD] and the [IRH and DDL]? As I understood it [IRH and DDL] are references to sub-ground states for an individual hydrogen atom. OTOH, [UDH and UDD] are condensed matter states of multiple atoms. Did I get this wrong? On Tue, Apr 5, 2016 at 8:18 AM, Jones Beene <jone...@pacbell.net> wrote: From: Robert Dorr Nicely done presentation. Well worth giving a look. These are the same slides used by Ólafsson at the colloquium back in October at SRI, reported here: https://www.mail-archive.com/vortex-l@eskimo.com/msg105372.html Here is the easy link to the slides https://goo.gl/Zlenbp However, even today – the majority of observers in LENR seems to gloss over the main point – which is that although fusion can happen, the bulk of the energy release is in the form of muons (aka meson chain) and is generally lost to the reactor itself (since most of the energy ends up as neutrinos). Even so, there is net gain. The implication is that if properly engineered, the gain will be much higher. In short, “something is accidentally created,” which causes seemingly impossible nuclear reactions (nucleon disintegration) and that something is UDH or UDD – ultra dense hydrogen. George Miley used to call it IRH or inverted Rydberg hydrogen. Now it is simply call UDH or DDL (deep Dirac level). Ultra-dense hydrogen can be the source of all or part of Cold fusion LENR related phenomena. Laser induced fusion in UDH is the most effective way to see the results since it produces muons as the longest-lived species. This is also known as the “meson chain reaction” and the lifetime is several microseconds, so that most of the energy will be deposited as neutrinos many meters away from the reactor – up to hundreds of meters.
