One of the most difficult jobs that a LENR experimenter is now faced with is to figure out what reaction products that the LENR reaction will produce. There are countless combinations and permutations of nuclear configurations that can results from lowering the coulomb barrier over a billion NAE sites.
But in the distant future, when the LENR process is well understood, when the NAE is standardized and well controlled, and when the nucleus of the atom is easily manipulated by mankind. a three D printer will enable manufacturing of an object using a computerized description as a template and trash as input. In the Star Trek sci fi fantasy, it is called a replicator. On Thu, May 16, 2013 at 12:17 PM, Daniel Rocha <[email protected]>wrote: > You could think of the compression mechanism not as causing fusion > directly, but causing the appearance of akito's symmetric condensate. > > > 2013/5/16 Axil Axil <[email protected]> > >> There is another compression mechanism that is important in >> Nanoplasmonics. The wavelength of light can be compressed by a factor of 10 >> to the 8th power by a nanoantenna when a polariton is formed. Mark Stockmen >> explains it far better than me in his primer that I referenced up thread. >> >> >> >> >> On Thu, May 16, 2013 at 11:58 AM, Daniel Rocha <[email protected]>wrote: >> >>> 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] >>> >> >> > > > -- > Daniel Rocha - RJ > [email protected] >
