Ok, but Casimir effect, DCE is the one contender with the most likelihood to supply the energy - a ZPE bootstrap that powers the oscillations, what defies COE in macro isotropy is not necessarily in defiance when the isotropy is broken and you have asymmetries, be they atomic vs molecular gas going thru translations opposite translations on either side of these breaches in isotropy that occur in the 2d tapestry of Ni geometry formed by powders or skeletal cats.
-----Original Message----- From: Bob Cook [mailto:frobertc...@hotmail.com] Sent: Tuesday, October 21, 2014 11:39 PM To: vortex-l@eskimo.com Subject: EXTERNAL: Re: [Vo]:A new type of laser is born? Robert-- Your just are ahead of Jones and Axil in hypotheses for LENR now, even with your hand waving. Thanks for your input. Bob Cook ----- Original Message ----- From: "Robert Ellefson" <vortex-h...@e2ke.com> To: <vortex-l@eskimo.com> Sent: Tuesday, October 21, 2014 7:26 PM Subject: [Vo]:A new type of laser is born? > > Dear Vortex-L, > > Stimulated by Jones Beene's thoughts on a coherent lasing system based on > a > Dynamical Casimir Effect (DCE) from his postings earlier today, I hope to > encourage further discussion along these lines of thought. > > In reference to the characteristic morphology of the nickel ash grain > (particle 1, figure 2, page 43) that I described in this posting: > http://www.mail-archive.com/vortex-l%40eskimo.com/msg98350.html > > I believe that the abundant 2-micron protrusions in the nickel ash > represent > dipole oscillators which have literally evolved from the initial nickel > fuel > grain clusters during the startup and then operation of reactor. These > oscillators form a coupled, complex, highly non-linear system that could > be > described as a LENR-driven LASER analog, much like the SPASER systems that > are emerging in laboratories right now in the nanoscale, except these > structures are micron-scale. One interesting paper which provides a > potential analog is: > http://arxiv.org/pdf/1001.0422v3.pdf ("Plasmon-mediated > superradiance near metal nanostructures") > > It is my contention that the observed microstructures in the nickel ash > grain are _directly homologous_ to the Eigen-modes of this coherent > system. > I believe that Ni-Li neutron exchange reactions are being stimulated by > SPP > and phonon interactions on the protruding structures, and are producing a > form of polychromatic superradiance such as that observed during reactions > involving Metastable Innershell Molecular States (MIMS, aka > ballotechnics). > I suspect the energy gain comes from the vacuum during the LENR reaction, > which I currently picture as a high-velocity collision of Li-Ni-Li that > produces a MIMS reaction which also (hand-waving here) exchanges neutrons > between lithium and nickel. This emits only intense photon and phonon > energy, some of which couples back into the system to drive further > reactions, while the rest is thermalized in the reactor shell. > > If this is true, then only the EMF stimulation is needed to control the > reactor via SPP pumping once a certain operating temperature threshold has > been reached by external heating. Rossi could simplify his control by > separating these two functions of heating and EMF stimulation, I suspect. > This separation may be the primary function of the mouse/cat reactor > configuration, where the mouse emits primarily photons as the cat's > controlling input, once a minimum temperature is reached throughout the > system. > > Using only EMF pumping to control the reaction would also greatly improve > the COP, which may be part of the reason why the systems that Rossi > demonstrates still have combined heating and RF control inputs. > > I suspect that if you were to construct a good approximation of the nickel > ash grain morphology with natural nickel, combined it with lithium and > large > iron grains, and stimulated it with EMF while at a high enough > temperature, > that you would see this system become active and gainful. A > high-resolution > 3-d printer could do this, as could a plethora of extant micro-fabrication > techniques. Then again, given that Rossi's systems evolve in-situ from > powdered fuel, why bother with fabricating machines? The main purpose I > can > think of for a designed and manufactured fuel morphology would be to > optimize the potential for electrical output while minimizing thermal > output. > > I hope these ideas are able to inspire further insights into this system. > > -Bob Ellefson > > > > > > > >
