Ftrank— To add to Axil’s comments, it is my understanding that Bose particles (0 or +/- integral intrinsic spin) can occupy the same energy states in a coherent system. This implies that that it is possible for two particles to be at the same location at the same time. For Bose particles with a magnetic moment—non-0 spin—a magnetic field will degenerate (reduce the possible locations and energy states) the coherent system “allows” for its constituent particles.
This may make it more likely that the wave function of 2Bose particles over lap and promote a system reaction involving no immediate loss of energy, only a change in the coherent system’s configuration of constituent particles with greater kinetic energy and less potential energy tied up in force fields. The new kinetic energy is spin angular momentum, exhibited as phonic energy (thermal energy) of the entire coherent system—the nickel lattice. The nickel latticed is cooled by some mechanism or mechanisms. IMHO Li vapor and hydrogen gas or Cooper pairs of hydrogen are part of a convective cooling medium surrounding each nano- particle or clumps of particles. The complex engineering of the coherent systems, the control system which changes the probability of a reaction, anti-clumping conditions, and the cooling system suggested by the above conceptual reactor design is the reason why LENR+ has taken so long for folks with small budgets to succeed. Bob Cook From: Axil Axil<mailto:janap...@gmail.com> Sent: Thursday, June 8, 2017 9:54 AM To: vortexallows for-l<mailto:vortex-l@eskimo.com> Subject: Re: [Vo]:Bose Einstein Condensate formed at Room Temperature 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<mailto: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
