The key to the Holmlid effect is the creation of CP violation. What can produce this condition?
There is a upcoming version of QM that uses complex numbers and four-dimensional Riemann space. It's used to handle open systems. It is called PT-symmetric quantum mechanics. PT-symmetric quantum mechanics is an extension of conventional quantum mechanics into the complex domain. (PT symmetry is not in conflict with conventional quantum theory but is merely a complex generalization of it.) PT-symmetric quantum mechanics was originally considered to be an interesting mathematical discovery but with little or no hope of practical application, but beginning in 2007 it became a hot area of experimental physics. http://www.europhysicsnews.org/articles/epn/pdf/2016/02/epn2016472p17.pdf If PT symmetry is broken, so is CP symmetry. The polariton condensate can produce PT symmetry breakage via the transformation of its dipole whispering gallery waves (WGW) as predicted by PT-symmetric quantum mechanics. A critical clue to the role of symmetry breaking in LENR is the observation that the application of an electrostatic field (a laser flash) catalyzes spontaneous symmetry breaking in the WGW via the Kerr effect. The result of the application of a KERR stimulus is a monopole where just a single rotating polariton spin current remains. This current is an amplified sum of the initial double counter rotating polariton dipole currents. The chiral handedness of the two counter rotating polariton currents also merge into a single much more amplified polariton current. In more detail, it looks like the index of refraction of the vacuum changes under the influence of EMF. This idea is the basis for the activation signal in the LENR reaction. The nature of the vacuum that the polaritons reside in is changed by B and/or E fields to induce a change of state in the circulation patterns of the polariton in the cavity. This is the KERR effect. This reorganization of polariton flow is what focuses the spin components of the polaritons into a monopole magnetic flux tube beam. After the laser flash, the polaritons that comprise the condensate transform into a tachyonic field and thereby acquire imaginary mass. This puts the polariton condensate into a dark mode state that may also add something to the Holmlid effect. Ken Shoulders called this dark mode state a "black EVO." On Sat, Apr 6, 2019 at 12:10 AM <mix...@bigpond.com> wrote: > In reply to bobcook39...@hotmail.com's message of Sat, 6 Apr 2019 > 03:39:40 > +0000: > Hi, > > A minor variation is the possibility that it's the excess positron that is > responsible for the stability of the whole proton. If an intruding > electron were > to annihilate that positron, then the whole proton might lose coherence. > > However I suspect it's all a it more complicated, because otherwise protons > bombarded with electrons would be disintegrating all over the place. > > > [snip] > Regards, > > > Robin van Spaandonk > > local asymmetry = temporary success > >