In this edition of EGO OUT (Tuesday, April 11, 2017) Peter has referenced a wonderful and impactful idea in this article:
Proton-nuclei smashups yield clues about 'quark gluon plasma'Physicists probe exotic state of nuclear matter at Europe's LHC https://www.sciencedaily.com/releases/2017/04/170410130104.htm?utm_source=feedburner&utm_medium=email&utm_campaign=Feed%3A+sciencedaily%2Ftop_news%2Ftop_science+%28ScienceDaily%3A+Top+Science+News%29 Science is studying the "chiral magnetic effect" (CME) in Quark-gluon plasma, or QGP. The magnetic fields that are generated in the QGP have a similar effect on quarks that LENR has on protons. The CME that appeared after the big bang in the QGP that existed back then was strong enough to keep energy from condensing into protons. Now-a-days, such vacuum altering magnetic fields are only seen in LENR. As stated by Jorn Kerst Boomsma in the summary of his thesis: https://www.nikhef.nl/pub/services/biblio/theses_pdf/thesis_J_Boomsma.pdf Effects of instanton interactions on the phases of quark matter IMHO, this thesis is a goldmine for LENR theory. "Summary” “There are strong indications that in heavy-ion collisions a new phase of matter is created, quark matter, which is a state of matter with deconfined quarks. Besides being created in heavy-ion collisions, it is also believed to have existed in early universe. Today it might exist in the interior of very dense neutron stars. In this thesis we have studied how quark matter is influenced by instantons. These nonperturbative effects are closely related to the QCD vacuum angle θ. Because of the existence of instantons observables can become θ-dependent. In Nature θ appears to be very close zero, an additional argument for this was presented in Chapter 4 of this thesis. In heavy-ion collisions θ may effectively become nonzero, at least that conclusion is drawn from an effective low-energy theory of the strong interaction. When θ is different from 0 (mod π), the theory is not invariant under CP." As additional background on this subject, the following article explains why CP violation is important to how the universe was created after the big bang: http://cerncourier.com/cws/article/cern/28092 On Wed, Apr 12, 2017 at 7:03 PM, Axil Axil <[email protected]> wrote: > The QCD vacuum angle θ (AKA theta angle) is central to the decay of the > proton, When this angle is very small, the proton does not decay. But when > instantons are formed inside the proton, the theta angle increases. This > change in the nature of the vacuum produced by instanton formation > generates proton decay. > > > https://www.nikhef.nl/pub/services/biblio/theses_pdf/thesis_J_Boomsma.pdf > > > Effects of instanton interactions on the phases of quark matter > > > IMHO, this thesis is a goldmine for LENR theory. > > > This paper explains how the formation of instantons inside the proton will > produce P symmetry breaking which will result in proton decay. > > > Another example of pseudo particle formation from magnetic energy is the > formation of magnetic instantons in the fractional quantum hall effect. > This demonstrates an example of how magnetic field lines can generated > fractionally charged pseudoparticles as typified by composite fermion > theory. > > > https://en.wikipedia.org/wiki/Composite_fermion > > On Wed, Apr 12, 2017 at 5:20 PM, Axil Axil <[email protected]> wrote: > >> http://inspirehep.net/record/1119586/plots >> >> >> [image: monopole-pair-instanton.png] >> >> >> An instanton is critical in the decay of the proton. An instanton is a >> pseudo particle that is produced as a condinsate of magnetic force. >> >> >> https://en.wikipedia.org/wiki/Instanton >> >> >> Monopole flux lines will interconnect connect as shown above in the >> figure to form a pseudo particle. These instantons form inside the proton >> in the presence of monopole field lines. These instantons destabilize the >> actions of the quarks inside the proton and the proton decays. >> >> On Sat, Apr 8, 2017 at 4:06 PM, Axil Axil <[email protected]> wrote: >> >>> >>> 1. The process by which the proton decays in LENR. >>> >>> Some esoteric process is causing the proton to decay in LENR. This >>> process is the root source for the production of energy and sub atomic >>> particles in LENR. >>> >>> >>> Whatever is causing the proton to decay into strange matter is a new >>> unrecognized if not unknown process in physics. This cause is not part of >>> current standard model theory. This makes LENR theory doubly hard and >>> mysterious. Not only do we need to explain the characteristics of LENR, >>> but >>> also LENR thinking gets involved in unrecognized physics that is itself >>> ill-defined and speculative and rooted in solving the hardest and still >>> unexplained issues in physics. As we go through this string of dots, you >>> will get a feel for why LENR theory will not be fully understood for >>> another century. >>> >>> Gathering the dots together. >>> >>> Before we attempt to connect the dots relegated to proton decay, we >>> must define them and gather them together. >>> >>> https://phys.org/news/2017-04-insight-math-million-dollar-pr >>> oblem-riemann.html >>> >>> Solving the Riemann hypothesis >>> >>> https://en.wikipedia.org/wiki/Riemann_hypothesis >>> >>> >>> In mathematics, the Riemann hypothesis is a conjecture that the >>> Riemann zeta function has its zeros only at the negative even integers >>> and >>> complex numbers with real part 1/2. It was proposed by Bernhard Riemann, >>> after whom it is named. The name is also used for some closely related >>> analogues, such as the Riemann hypothesis for curves over finite fields. >>> >>> The Riemann hypothesis implies results about the distribution of >>> prime numbers. Along with suitable generalizations, some mathematicians >>> consider it the most important unresolved problem in pure mathematics. >>> >>> The complex number system on which this conjecture is based was >>> thought to have no meaning or application to any physical property in >>> reality. But this feeling has turned out to be wrong. >>> >>> In 1999, it was suggested by David Hilbert and George Pólya that in >>> the nontrivial zeros form a set of real and discrete numbers in the >>> Riemann >>> zeta function are just like the eigenvalues of another function called a >>> differential operator, which is widely used in physics. >>> >>> This special newly discovered operator has close ties with quantum >>> physics. The special operator in quantum physics is not Parity / Time >>> (PT) >>> symmetric in the complex number domain. If it can be shown that the PT >>> symmetry is broken for the imaginary part of the operator, then it would >>> follow that the eigenvalues are all real numbers, which would finally >>> constitute the long-awaited proof of the Riemann hypothesis. >>> >>> >>> One of the pivotal dots to be connected in proton decay is Parity / >>> Time (PT) symmetry breaking. >>> >>> http://www.europhysicsnews.org/articles/epn/pdf/2016/02/epn2 >>> 016472p17.pdf >>> >>> 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. >>> >>> >>> The connection between PT symmetry, LENR, Proton decay is whispering >>> gallery waves. >>> >>> >>> https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4830925/ >>> >>> Because of their complex number based quantum behavior, whispering >>> gallery waves (WGW) have mysterious properties that are seen in LENR. In >>> whispering gallery waves, the complex number system relates to the index >>> of >>> refraction of the light contained in WGW type of the optical cavity. When >>> two WGWs are near each other, there is a one way flow of energy between >>> them and a translation of frequencies associated with that transfer. This >>> energy extraction process is unleashed by PT symmetry breaking and the >>> decay that this symmetry breaking produces. >>> >>> The WGW is the structure that gives form to the Surface Plasmon >>> Polariton. Via the SPP, the energy extraction process whereby the WPW >>> pulls >>> energy out of the proton includes a PT symmetry breaking process. This PT >>> symmetry breaking frees the energy content of the proton as SPP breaks >>> the >>> PT symmetry that keeps the protons or neutrons from decaying. >>> >>> The color force and proton stability is based on maintaining CPT >>> stability. Here are some old posts that explain this behavior of the >>> color >>> force: >>> >>> https://www.lenr-forum.com/forum/thread/3736-the-possible-ro >>> le-of-axions-in-lenr/ >>> >>> and >>> >>> https://www.lenr-forum.com/forum/thread/3736-the-possible-ro >>> le-of-axions-in-lenr/?postID=35394#post35394 >>> >>> <https://www.lenr-forum.com/forum/thread/3736-the-possible-role-of-axions-in-lenr/?postID=35394#post35394> >>> >>> >> >
