The polariton is a PHOTON with a negative electric Charge. The polariton is a boson with spin = 1.
The polariton forms the BEC, it concentrates negative electric charge, and all this has all been experimentally demonstrated. And the polariton generates the LENR reaction. On Mon, May 27, 2013 at 9:46 PM, Edmund Storms <stor...@ix.netcom.com>wrote: > > On May 27, 2013, at 7:29 PM, Kevin O'Malley wrote: > > > > On Mon, May 27, 2013 at 5:55 PM, Edmund Storms <stor...@ix.netcom.com>wrote: > >> Kevin, I see no evidence in the link for the actual existence of a BEC >> forming between hydrons at room temperature. People have proposed but not >> demonstrated. >> >> Ed Storms >> > ***That's because it would be difficult and expensive to demonstrate. > What you said was "The BEC is known from experience and theory to only form > near absolute zero." But that is not the case. So if BECs in other > materials can form at high temperature, it is not a tremendous supposition > to suggest they can in Nickel/H1 of Palladium/Deuterium. > > > The essential question is, Does a BEC form in any material? Various > applications of this concept have been applied, but not to hydron atoms. > In fact, when BEC are formed near absolute zero, they consist of neutral > atoms in a vacuum. In the case of hydrons, they are ions located in stable > sites in a structure. Moving these ions into a common site where a BEC > might form takes energy. Formation of a BEC does not supply much energy, as > theory shows. I do not see any advantage to pretending something might > happen that conflicts with basic theory and experience unless this is the > only possibility. This is not the only possibility. In fact, better ideas > have been suggested. > > Ed Storms > > > > >> >> On May 27, 2013, at 4:53 PM, Kevin O'Malley wrote: >> >> >> On Mon, May 27, 2013 at 11:01 AM, Edmund Storms <stor...@ix.netcom.com>wrote: >> >> The BEC is known from experience and theory to only form near absolute >> zero. >> ***How quickly you forget having logged onto this thread: >> >> Re: [Vo]:Bose Einstein Condensate formed at Room >> Temperature<http://www.mail-archive.com/search?l=vortex-l@eskimo.com&q=subject:%22Re%3A+%5BVo%5D%3ABose+Einstein+Condensate+formed+at+Room+Temperature%22> >> http://www.mail-archive.com/vortex-l@eskimo.com/msg76596.html >> >> And this thread was greeted with a yawn: >> [Vo]:Re: Superheated Bose-Einstein condensate exists above critical >> temperature<http://www.mail-archive.com/search?l=vortex-l@eskimo.com&q=subject:%22%5BVo%5D%3ARe%3A+Superheated+Bose-Einstein+condensate+exists+above+critical+temperature%22> >> http://www.mail-archive.com/vortex-l@eskimo.com/msg78827.html >> >> >> >> >> > >
