Reference: http://www.spacedaily.com/reports/World_first_Significant_development_in_the_understanding_of_macroscopic_quantum_behavior_999.html
“Major development in the understanding of macroscopic quantum behavior” As a preface, DGT has provided original experimental research info on the behavior of the magnetic bubbles that the DGT experimenters observed through their observation window during the operation of the R5 reactor Hyperion Lab Prototypeas as follows: “These induced magnetic domains are expected to create many localized magnetic fields, randomly distributed on Ni surfaces, which can be regarded as localized magnetic traps (LMT) for hydrogen pairs and molecules. The sizes of LMTs may range from nano-scale to micro-scale.” More broadly, the Referenced SpaceDaily article provides some valuable experimentally derived insights into how LENR works and additionally lends insight into what these LMTs are. In this nanoplasmonic research article reference in SpaceDaily, information sets the context related to the DGT observation above as follows: “For the first time, the wavelike behavior of a room-temperature polariton condensate has been demonstrated in the laboratory on a macroscopic length scale.” Then getting into the specifics, the article relates a valuable piece of info that resolves a LENR puzzle as follows: “The size of the condensate is a limiting factor In addition to directly observing the organic polariton condensate's wavelike behavior, the experiment showed researchers that ultimately the condensate size could not exceed approximately 100 micrometers. Beyond this limit, the condensate begins to destroy itself, fragmenting and creating vortices.” The DGT references an observation of a Bosenova that eventually destroys the LMT Bose condinsate at a certain size limit. This Bosenova is when through an explosion, the LMT gives up it store of energy to the structure of the reactor. To rap up everything into a set of conclusions, the LMT is really a polariton dark mode soliton. Specifically, this soliton is a vortex of coherent light that behaves as a black hole for EMF: a hybrid waveform of light and electrons. It grows in size to about 100 micrometers whereupon it becomes unstable and explodes when the main photonic vortex motion begins to produce countervailing peripheral vortex currents. The research in the reference article puts a limit to how large these black holes of light can grow: 100 micrometers. Also. from the SpaceDaily article it states: “The condensate is created by first exciting a sufficient number of polaritons using a laser and then observed via the blue light it emits. Its dimensions can be comparable to that of a human hair” The light emitted at LMT explosion(Bosenova) was company proprietary information, but it was almost certainly blue in the visible and beyond as black light ultra violet as observed and reported by Mills. As a closing note of heartfelt regret, DGT is sorely missed as a generous source of experimental data and insights into the LENR Ni/H reactor reaction. The loss of their expertise, honesty, generosity, openness, and competence is a major tragedy for the LENR community. On Tue, Jul 21, 2015 at 1:01 PM, Peter Gluck <[email protected]> wrote: > Dear Friends > > The outer temperature is greater than my inner temperature and I am not > LENR based, so my functionality is low as you can see here: > > http://egooutpeters.blogspot.ro/2015/07/lenr-issues-for-jul-21-2015.html > > Warrn greetings, (no big trick!) > > Peter > -- > Dr. Peter Gluck > Cluj, Romania > http://egooutpeters.blogspot.com >

