https://www.nature.com/articles/srep16184
*Topological, non-topological and instanton droplets driven by spin-transfer torque in materials with perpendicular magnetic anisotropy and Dzyaloshinskii–Moriya Interaction* This article explains how a unbalanced magnetic field can produce an instanton. On Wed, Apr 12, 2017 at 5:20 PM, Axil Axil <janap...@gmail.com> 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 <janap...@gmail.com> 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- >> role-of-axions-in-lenr/ >> >> and >> >> https://www.lenr-forum.com/forum/thread/3736-the-possible- >> role-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> >> >> >
