Laser light can hardly compress anything in this case. Have you thought about the wavelength of light of 500nm? A sphere with one node of it can contain 125 billions of H atoms.
2013/5/16 Axil Axil <[email protected]> > http://archiv.ub.uni-heidelberg.de/volltextserver/13138/1/thesis.pdf > > This experimenter found not much alpha decay help from high powered lasers > alone. > > Sorry, the screening comes from polariton production by laser stimuli of > nano-particles. > In the referenced I sited for you, the dissertation by Cort´es states: > > “Lifetimes and α-particle emission spectra are investigated for a number > of α-emitting nuclei. We find that even at strong intensities, the > laser-induced acceleration of the α decay is negligible, ranging from a > relative modification in the decay rate of 10−3 for static fields of > electric field strengths of 10^^15 V/m, to 10−8 for strong optical fields > with intensities of 1022 W/cm2, and to 10−6 for strong x-ray fields with > laser intensities around 10^^24 W/cm2.” > > So it is not laser light alone. When laser light is amplified, compressed > and concentrated by nanoantennas by a factor of 10 to the 9 power for gold > (reference has been provided) that is when the EMF is strong enough to be > reactive. > > It is not just the EMF, but the sub-atomic quasiparticle formed from the > combination of light and electrons called a poloriton that carries the > electric negative charge that is concentrated is a sub-nanometer volume > called a NAE. > > > > > On Thu, May 16, 2013 at 8:54 AM, Roarty, Francis X < > [email protected]> wrote: > >> Axil,**** >> >> thanks for the citation re decay acceleration, You are adding support >> for relativistic effects in this environment, It does appear that >> appropriate laser application multiplies the measured effect, I would posit >> that it accelerates the medium transport through the geometry and >> multiplies the number of gas atoms exposed to the changes in geometry. I >> think plasmonic resonance is a reasonable description of what can occur >> inside this geometry. **** >> >> In thinking about the Naudts paper re relativistic >> hydrogen it occurred to me that perhaps we should view this effect from the >> opposite direction..from the quantum foam level below the plank scale to >> the quantum level where this geometry appears to allow the same sort of >> breaks in time and isotropy that occur at the quantum foam level [Cavity >> QED] where tiny wormholes form to average out the fabric of space time >> magnitudes of scale below the formation of physical building blocks… I am >> suggesting these tiny hot spots are already normalized into chemistry >> under the heading of catalytic action.. identified by surface areas and >> figures of merit I would suggest said merit is actually based upon >> conductivity, where we already know metals are best, and nano geometry. I >> am positing that careful creation of geometry in a permanent inert gas >> blanket environment with permanent heat sinking could allow for a new >> class of super catalysts where only small amounts of reactive gas is added >> and pumped through the system. Without these precautions we would classify >> the reaction as pyrophoric.**** >> >> Fran**** >> >> ** ** >> >> **** >> >> **** >> >> ** ** >> >> *From:* Daniel Rocha [mailto:[email protected]] >> *Sent:* Thursday, May 16, 2013 2:29 AM >> *To:* John Milstone >> *Subject:* EXTERNAL: Re: [Vo]:'Slow' arcing electrons can gain >> relativistic mass**** >> >> ** ** >> >> Axil,**** >> >> ** ** >> >> I hope you just notice that the energy scale at which these phenomena >> occur are puny in comparison to what is needed for fusion.**** >> >> ** ** >> >> 2013/5/16 Axil Axil <[email protected]>**** >> >> Dear Ed:**** >> >> **** >> >> >> http://www.google.com/url?sa=t&rct=j&q=&esrc=s&frm=1&source=web&cd=2&cad=rja&ved=0CDQQFjAB&url=http%3A%2F%2Fwww.phy-astr.gsu.edu%2Fstockman%2Fdata%2FStockman_Phys_Today_2011_Physics_behind_Applications.pdf&ei=KWKUUd2bMe610AHSy4CQBQ&usg=AFQjCNHdcmFaRe9tfcLMzk1V8uwPQ8OvXA&sig2=BHsFSNJUGxJ8Cs9T3pBlJA&bvm=bv.46471029,d.dmQ >> **** >> >> **** >> >> **** >> >> *A primer on Nanoplasmonics.***** >> >> >> The concentration mechanism is a resonant constructive interference >> process called Fano interference discovered a few years ago. It produces >> the “hot spot”, which is the most significant and exciting process in >> Nanoplasmonics.**** >> >> **** >> >> Much current research into hot spots is currently underway.**** >> >> Laser light is used to produce dipole vibrations in the nanoparticles. A >> Laser only produces plain waves and excites dipole excitation poorly.**** >> >> **** >> >> The lattice of a metal produces dipole vibrations in the deep infrared >> far better than a laser ever can.**** >> >> **** >> >> The Ni/H reactor couples heat with surface electrons to produce >> polaritons at high efficiency and then the nano-particles concentrate the >> EMF in extreme concentrations.**** >> >> ** ** >> >> -- >> Daniel Rocha - RJ**** >> >> [email protected]**** >> > > -- Daniel Rocha - RJ [email protected]
