It is profitable to draw a close comparison between the IBM polaritron/BEC experiment and this Toyoda replication.
In the IBM polariton experiment, a thin polymeric layer is placed between two mirrors and excited with laser light. This thin plastic film is approximately 35nm thick. These bosonic particles form when electrons and photons combined together through enhanced interaction of the polymer material and light which bounces back and forth between the two dielectric interface mirrors many times. Read more at xbitlabs.com ... http://www.xbitlabs.com/news/other/display/20131210235559_IBM_s_Scientific_Breakthrough_Could_Enable_Lower_Cost_High_Performance_Big_Data_Systems.html Even the thicknesses are comparable at 40 nm. The polariton phenomenon only lasts for a few picoseconds (one trillionth of a second), but the scientists believe this is already long enough to use the bosons to create a source of laser-like entangled bosonic light electron hybrid. In the Toyoda replication, the two mirrors are the hydrogen/palladium interface surface and the palladium/CaO interface surface. The 70C heat drives dipole activity between these two dialectic transition surfaces in the same why that the two opposite sides of a nanoparticle imbedded in hydrogen drive dipole oscillations. This dipole motion sets up soliton formation on the hydrogen/palladium interface surface as the dipole motion is diverted into vortex motion by surface irregularities at the hydrogen boundary. This soliton formation process cause the strong magnetic fields that produce the transmutation of elements. The surface of the palladium should be highly conductive and maybe even superconducting as seen in other experiments such as in the Celani’s wire experiment and Miley’s cavity BEC measurements. On Tue, Dec 24, 2013 at 5:05 PM, Edmund Storms <[email protected]>wrote: > No Axil, you make assumptions that are not true. First, the distribution > on the surface was uneven with the transmuted element being in only a few > spots. Second, the cracks would start at the surface and penetrate only a > short distance, this being the nature of strain induced cracks. > > Because the target was only near the surface, the product would have to be > near the surface as well. The CaO was too far away from the surface (400 Å) > to have any effect on the electronic conditions at the surface. The > failure of MgO is a side issue because we have no idea if the other > conditions were identical. Y2O3 was found to work. Other oxides were not > tried. > > Ed Storms > > On Dec 24, 2013, at 2:26 PM, Axil Axil wrote: > > More... > > The transmutation was no more than 10 Nm below the surface of the Pd/D2 > interface and the distribution of transmutation was even. Cracks would > cause deeper penetration of the interface layer and be concentrated in Hot > Spots. > > > On Tue, Dec 24, 2013 at 4:11 PM, Axil Axil <[email protected]> wrote: > >> The referenced experiment takes note that substitution of magnesium oxide >> for calcium oxide removes transmutation. >> >> An oxide layer will capture hydrogen and transform CaO to Ca(OH)2. This >> compound modified Ca compound has an increased dielectric value over >> Mg(OH)2. >> >> The cracks posit is insensitive to a change in the dielectric properties >> of the insolating layer and should produce transmutation regardless, but it >> does not. >> >> >> On Tue, Dec 24, 2013 at 3:41 PM, Edmund Storms <[email protected]>wrote: >> >>> Let me add my speculation to the collection of explanations sure to >>> follow. I propose the CaO layer forces the thin Pd layer to form cracks >>> when D is added to the Pd, which creates the NAE in which the transmutation >>> reaction occurs. The D-D fusion reaction also takes place in the crack and >>> the mechanism releasing energy from this reaction also releases mass-energy >>> from the transmutation reaction. You heard it first here. The proof will >>> come later. >>> >>> Ed Storms >>> >>> On Dec 24, 2013, at 1:34 PM, Axil Axil wrote: >>> >>> Regarding: >>> >>> >>> Report: Toyota Replicates Mitsubishi LENR Transmutation Experiment >>> >>> >>> >>> >>> http://lenr-canr.org/acrobat/IwamuraYobservatiob.pdf >>> >>> >>> *OBSERVATION OF NUCLEAR TRANSMUTATION REACTIONS INDUCED BY D**2 **GAS >>> PERMEATION THROUGH PD COMPLEXES* >>> >>> >>> Excerpt: >>> >>> >>> At present the authors do not have definite explanation for the role >>> of the CaO layers. We cannot perfectly exclude out the possibility that >>> CaO layers modified the electronic state of top Pd layer. >>> >>> >>> >>> >>> This experiment might well demonstrate the nanoplasmonic cause of LENR. >>> >>> >>> The nanoscopic layer of calcium oxide will confine EMF concentrated by >>> 70C heat photons in the transition region between the metallic conductive >>> layer of Pd and the dielectric layer of CaO. >>> >>> >>> This EMF confinement will produce strong magnetic fields at the >>> surface of the Pd causing transmutation of elements Ba, Cs, Sr into >>> elements with higher atomic numbers through hydrogen fusion as follows: Cs >>> into Pr, Sr into Mo, and Ba into Sm. >>> >>> >>> The surface of the Pd in the interface layer with the deuterium should >>> be tested for a magnetic field using Hall Nano probes to verify the >>> existence of anomalous electromagnetic conditions at the Pd to D2 interface >>> layer. >>> >>> >>> Merry Christmas to all >>> >>> >>> >>> >>> >>> >>> >> > >
