LENR theorists have been looking for the special particle that can absorb high energy from a nuclear reaction for years. That particle has been given many names over the year, but for me that special particle is the polariton, a particle made of light.
On Tue, Jun 13, 2017 at 8:04 PM, CB Sites <[email protected]> wrote: > Y.E. Kim also has an interesting theory paper that demonstrates the > possibility of a high temperature BEC for the hydrons. I think it was > constrained in a lattice as well. > I always thought that would be an excellent research topic, the formation > of hydron BECS in solids, there detection and measurement. > > > > > > > On Tue, Jun 13, 2017 at 7:49 PM, CB Sites <[email protected]> wrote: > >> I'm kind of late on this, but would spin conservation do what Ed Storm >> asked? >> >> "However, why would only a few hydrons fuse leaving just enough unreacted >> hydrons available to carry all the energy without it producing >> energetic radiation? I would expect occasionally,many hydrons would fuse >> leaving too few unreacted hydrons so that the dissipated energy >> would have to be very energetic and easily detected." >> >> If I remember, Steve and Talbot Chubbs had proposed that bose band >> states could distribute the energy over many nucleons >> in the band state. In a 1D kronig-penny model of a periodic potential, H >> and D form bands and their band energy levels are separated by a >> 0.2eV, which means when 20MeV is spread across the band, the spectrum >> would be 20MeV / (n * 0.2eV) where n are the number of hyrons >> making up the band. That's just back of the envelope using a 2D >> kronig-penny period potential. And all of that photon energy spread over >> n-hydrons gets dumped right back into the lattice. Similar in a sense to >> the Mossbauer effect. >> >> >> >> >> >> On Tue, Jun 13, 2017 at 6:50 PM, Axil Axil <[email protected]> wrote: >> >>> http://physicsworld.com/cws/article/news/2017/jun/12/superfl >>> uid-polaritons-seen-at-room-temperature >>> >>> Superfluid polaritons seen at room temperature >>> >>> the polaritons behave like a fluid that can flow without friction around >>> obstacles, which were formed by using a laser to burn small holes in the >>> organic material. This is interpreted by the researchers as being a >>> signature of the superfluid behaviour. >>> >>> there might be some sort of link between a superfluid and a >>> Bose–Einstein condensate (BEC) – the latter being a state of matter in >>> which all constituent particles have condensed into a single quantum state. >>> He was proved right in 1995 when superfluidity was observed in BECs made >>> from ultracold atoms >>> >>> >>> >>> On Thu, Jun 8, 2017 at 1:54 PM, Axil Axil <[email protected]> wrote: >>> >>>> A Bose condinsate brings super radiance and super absorption into play. >>>> These mechanisms produce concentration, storage, and amplification of low >>>> level energy and goes as "N", the number of items in the condinsate. >>>> >>>> On Thu, Jun 8, 2017 at 9:46 AM, Frank Znidarsic <[email protected]> >>>> wrote: >>>> >>>>> Why is a Bose Condensate needed? Its a matter of size and energy. >>>>> The smaller the size of something we want to see the more energy it takes. >>>>> Using low energy radar you will never be able to read something as small >>>>> as >>>>> this text. You need to go to UV energies to study atoms. Higher ionizing >>>>> energies are needed to study the nuclear forces. Really high energy >>>>> accelerator energies are required to look at subatomic particles. >>>>> >>>>> The common complaint physicists have with cold fusion is that the >>>>> energy levels are to low to induce any type of nuclear reaction. They >>>>> never, however, considered the energy levels of a large hundreds of atoms >>>>> wide condensed nano-particle. Its energy levels are quite low. Warm >>>>> thermal vibrations appear to the nano particle as a high energy >>>>> excitation. This again is a matter of its size. It's not cracks, or >>>>> shrunken atoms at work. It is the thermal excitation of a nano particle >>>>> that yields the required energy. >>>>> >>>>> Again the simulation induces a velocity of one million meters per >>>>> second. >>>>> >>>>> Frank Z >>>>> >>>>> >>>>> >>>>> >>>> >>> >> >
