This is my favorite experiment: Radioactive decay half-life acceleration cause by time dilation
Reference: https://arxiv.org/abs/1112.... <https://disq.us/url?url=https%3A%2F%2Farxiv.org%2Fabs%2F1112.6276%3AtviC4brdS0B0R1yl8Md99mmIpXQ&cuid=2168707> Accelerated alpha-decay of 232U isotope achieved by exposure of its aqueous solution with gold nanoparticles to laser radiation A.V. Simakin, G.A. Shafeev This reference sheds light on the posit that an electromagnetic black hole accelerates radioactive decay through relativistic time dilation. With this posit in mind, experimental data elucidates what the optimum duration of the pumping EMF time-frame should be. "Experimental results are presented on laser-induced accelerated alpha-decay of Uranium-232 nuclei under laser exposure of Au nanoparticles in aqueous solutions of its salt. It is demonstrated that the decrease of alpha-activity strongly depends on the peak intensity of the laser radiation in the liquid and is highest at several terawatt per square centimeter. The decrease of alpha-activity of the exposed solutions is accompanied by the deviation of gamma-activities of daughter nuclides of Uranium-232 from their equilibrium values. Possible mechanisms of the laser influence on the alpha-activity are discussed on the basis of the amplification of the electric field of laser wave on metallic nanoparticles." The mechanism of polariton Bose condensation causation involves the generation of plasma and associated intense EMF fields around a nanoparticle that generates a critical density of surface plasmon polaritons (SPP) which acts as a micro analog black hole in which relativistic time dilation occurs in and around its vortex flux tubes. The SPP and Its vortex tube are pictured below along with associated theory. In the LION experiment, we saw how spin vortex flux tubes produced transmutation of elements. This article explains how those tubes form. https://advances.sciencemag... <https://disq.us/url?url=https%3A%2F%2Fadvances.sciencemag.org%2Fcontent%2F1%2F11%2Fe1500807.full%3AI87OMkUwY-wX71syK-RU1jODmGo&cuid=2168707> Vortex and half-vortex dynamics in a nonlinear spinor quantum fluid The A.V. Simakin article shows that the polariton Bose condensate reduces the 69 year half-life of U232 to 5 microseconds. It addition, the acceleration of radioactive decay of the 4.5 billion year half-life of uranium is sufficiently time accelerated to produce significant detectable uranium decay products. Both the power of the laser pulse and its duration are important factors in producing optimum half-life decay acceleration. The nanosecond laser pulse length is too short to optimize radioactive decay acceleration as well of the 350 ps laser source. The 150 ps laser source seems to be a better fit to match the 50 ps life span of the polariton which is the resonance value for optimization of decay. Another insight gleaned for this experiment is that the length of the laser pulse does not produce continuing radioactive decay acceleration. The LENR activity is constrained by the lifetime of the polariton and is active only as long as the polariton is active. On Sat, Jul 20, 2019 at 6:01 PM Jürg Wyttenbach <ju...@datamart.ch> wrote: > So which gammas are emitted in the first case, and what would you expect if > the > reaction were 7-Li + H* --> 8-Be --> 2 4-He? > > H* is p+e that get both added. This was my first key finding about 3 years > ago. > > You can look this explanation (gammas) up in my very old writeup about > LENR or in the Lipinski patent. > > This is a very good teaching example and I would prefer that everybody > interested in real LENR does this as an exercise. It is absolute key to > know/understand the details about H*, D*. > > Juerg > > Am 20.07.19 um 22:49 schrieb mix...@bigpond.com: > > In reply to Jürg Wyttenbach's message of Sat, 20 Jul 2019 18:09:51 +0200: > Hi, > [snip] > > Two simple samples: > > 7-Li + H* --> 8Li --> 8-Be --> 2 4-He. (Lipinski reaction) > > 105Pd +D* -->107Cd --> 107Ag classic P&F. > > You can identify the decay paths by the typical gammas emitted. > > So which gammas are emitted in the first case, and what would you expect if > the > reaction were 7-Li + H* --> 8-Be --> 2 4-He? > > ...and how do you know that the first reaction isn't really:- > > 7-Li + D* --> 8Li (neutron transfer) + p (wanders off) --> 8-Be --> 2 4-He, > making use of trace D in the H? > Does the reaction rate change if you incrementally add D to the H? > > > To learn about this use. > https://www-nds.iaea.org/relnsd/vcharthtml/VChartHTML.html > > Most of the time the A+D* reaction is followed by a beta+ decay. But > there are some exceptions > > ...so you detect pairs of positron annihilation gammas? > Regards, > > > Robin van Spaandonk > > local asymmetry = temporary success > > > > > > -- > Jürg Wyttenbach > Bifangstr.22 > 8910 Affoltern a.A. > 044 760 14 18 > 079 246 36 06 > >
