This might be the reference but I'm not certain.
Axil Axil <janap...@gmail.com> 2/9/14 to vortex-l regarding MIT Cold Fusion IAP 2014 Friday January 31, 2014 (Full Lecture) A lot of time was spent looking for a two level receiver that can split up a gamma photon into many low energy photons. A electron photon pair was not considered for some reason. I see the NAE as a EMF Cuisinart that slices, dices and blends all the photons that dare to enter it. The NAE must have a resonance frequency in the soft x-ray range. A one to two nanometer NAE size will put its resonance photon frequency into the soft x-ray range, So whatever photon that enters into the optical based NAE will be chopped up and rebuilt into soft x-rays. When these x-rays are released from the NAE upon its destruction, it is thermalized by absorption through additional photoluminescence processes. This optical NAE process may be the reason that Mills sees XUV in his reactions. On Tue, Jun 13, 2017 at 2:50 AM, Kevin O'Malley <kevmol...@gmail.com> wrote: > That super absorption sounds familiar. There was a study done with > lattices that thermalized gamma rays and broke them down into X-rays > according to the number "N" of the items in the lattice. I'll try to find > it. > > On Thu, Jun 8, 2017 at 10:54 AM, Axil Axil <janap...@gmail.com> 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 <fznidar...@aol.com> >> 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 >>> >>> >>> >>> >> >
