The questions that I should have asked first
The development of a completely new idea is not a rational process. Only when the smoke clears, one realizes what questions one should have posed first in order to avoid side tracks.
I started the development of the model for the solar anomalies (see this) from the idea that the surface of the Sun involves a monopole flux tube layer carrying M89 nucleons having mass 512 times that of ordinary nucleons. Among other things, this would explain the missing nuclear matter of the Sun, the evidence for solid structures at the surface of the Sun, and gamma ray anomalies. The decay of M89 nuclei would give rise to ordinary nucleons of the solar wind and generate the radiation from the Sun. If the original goal had been to construct a model of the Sun, I would have started with the following questions.
- I did not consider explicitly the constraints from the existing nuclear physics believe to prevail inside the solar core. But can one really give up standard nuclear physics and reduce the nuclear physics of the Sun to what happens in the M89 flux tube layer? If this were the case, one should start from scratch and the entire known nuclear physics of the Sun should be rediscovered.
The natural possibility is that the M89 surface layer determines what is seen by the observer during the life cycle of the star. Only after the supernova explosion or a formation of BH, the evolution inside the core of the Sun becomes in daylight via the abundances of the elements created. The anomalously low convection currents in the convection zone support this view. Also the puzzle caused by elements heavier than Fe finds a solution: they would be produced in the decay of M89 nuclei at the surface.
It seems that the TGD counterpart for ordinary nuclear physics must be present in the core of the Sun. Could the monopole flux tubes containing only M89 nucleons take care of the transfer of the nuclei and energy from the Sun to the environment? This process would involve the decay of M89 nuclei to the ordinary nuclei. The M89 layer would be an addition to the nuclear physics of the Sun rather than its replacement.
How M89 nuclei are regenerated is a question, which occurred repeatedly but which I have managed to put under the rug.
- The birth of a new star requires the emergence of a M89 layer and possible M89 nucleus deep in the interior of the Sun playing the role of the dipole of a dipole magnetic field. How could it emerge? M89 regions should be deep in the interior of the Sun and define the analog of a dipole field. The M89 nuclei must be generated in the solar nucleus or feeded to it. From the nucleus they would end up the surface of the Sun along the monopole flux tubes.
- p-Adic cooling occurring in a stepwise manner by reducing the p-adic scales by octaves would provide a model for the decay of M89 nuclei to M107 nuclei. Can one consider p-adic heating of M107 nuclei to M89 nuclei? There is evidence from LHC for the creation of M89 mesons and the solar gamma ray anomalies suggest that M89 and even MG,79 mesons are produced. From this there is however a long way to the p-adic heating of nuclei increasing their mass by factor 512 but one can ask whether the p-adic heating leads in a stepwise way also to a formation of M89 nuclei.
- In ZEO it is natural to ask whether the p-adic heating could be a time reversal of the p-adic cooling identifiable as a quantum tunnelling involving a pair of BSFRs. Huge energies are needed but the rise of the temperature could take place by steps proceeding hadron physics by hadronic physics with decreasing p-adic length scale L(107)→ L(105)= 2L{107}….→ L(89).
Could the solar core involve a hierarchy of layers for which the p-adic temperature increases in powers of 2, at least up to the QCD Λ∼ 100-200 MeV assignable to the the temperature at which the transition to quark gluon plasma is believed to occur in QCD.
- ZEO could make it possible to extract energy from the environment of the solar nucleus to transform M107 nuclei to M89. The needed energies are huge and it is far from clear whether these energies can be provided by ordinary nuclear reactions with a much smaller energy scale and even by the reactions transforming nuclei at different p-adic temperatures to each other which also involve huge energy scales. If this were the case, the energy would come from the solar core and generate a heat current towards the center raising of the p-adic temperature.
- The second option is that the energy arrives at the solar nucleus from the outside. TGD predicts that the stars of the galaxies form a network connected by monopole flux tubes. Could this network acting like blood circulation feed M89 nuclei from, say galactic nuclei, to the Sun, where they would be used as a fuel. M89 nuclei, which are burned to M107 nuclei and in this process induce p-adic heating of the environment around the solar nucleus. One could consider a process in which the evaporation of BHs by time reversal could lead to the next level in the hierarchy of hadronic physics labelled by MG,103. Cosmic evolution would be climbing along the ladder formed by Merssen primes and their Gaussian counterparts.
Could the Sun be regarded as a living, metabolizing system?
The above considerations force us to ask whether the Sun could be regarded as a living, metabolizing system.
- ZEO suggests that the Sun is a living organism, which dies and reincarnates with a reversed arrow of time in each BSFR. Single BSFR would correspond to the 11 year half period of the sunspot cycle. The energy feed provided by nuclear fusion and the possible feed of the M89 nuclei from the galactic circuitry to the solar nucleus could together with the ordinary nuclear fusion the needed energy. The decay of the M89 nuclei to ordinary nucleus by gamma emission might make possible this kind of processes (the energy of the gamma ray in the decay N(k) → N(k-2)+γ is Eγ= 3m(N(k)/8.
The flux tubes connecting the Sun to the galactic nucleus or possibly to the galactic blackhole-like object would be like blood circuitry bringing in metabolites and metabolic energy.
The decay and regeneration magnetic bubble and also the interior part of the MB as the counterpart of dipole of the dipole field would take during the reversal of the direction of the magnetic field and be analogous to biological death and reincarnation with an opposite arrow of time.
Reconnection makes possible the orientation reversal of the solar magnetic field. The portions of the monopole flux with opposite directions must be very near to each other and touch so that the splitting to closed monopole flux tubes becomes possible. These flux tubes can change their orientation and after that fuse back to the flux tubes with opposite direction of the magnetic flux. The time reversal would correspond to the polarization reversal.
In TGD inspired quantum biology biocatalysis involves a reduction of heff for U-shaped flux look connecting the reactants. This reduces the length of the flux tube and brings reactants together and liberates energy kicking the reactants over the energy wall preventing the reaction otherwise. Now something analogous could take place. The closed flux tube having a distance of about RE/2 between parallel strands with opposite polarities could suffer a phase transition reducing the value of ℏgr so that they distance would become very small and the reconnection splitting the long and narrow flux tube pair to pieces which then reconnect to form a narrow structure with opposite polarization. After that heff would increase to ℏgr.
Could the thermodynamical model of the Sun and planets be replaced with a geometric description?
A basic objection against the quantum model of stars and planets is that thermodynamic notions like pressure are absolutely essential for the understanding of the physics of the solar and planetary interiors.
- In the thermal models pressure prevents gravitational collapse. In the geometric model, the tension of the monopole flux tubes in vertical and horizontal directions would prevent gravitational collapse. I have developed a model of nuclei and atoms based on spherical structures carrying Platonic solids (see this). If this applies also to the Sun and planets, they would resemble outcomes of engineering.
- When nuclear fusion does not anymore produce enough energy, the flux tubes decay and the analog of the pressure disappears and the core collapses. The counterpart of this description in the geometric model would be as follows. The monopole flux tubes and the dark matter at them require energy feed and nuclear reactions. The p-adic cooling of M89 nuclei could provide it. In the absence of the energy feed heff is reduced and the flux tubes collapse and gravitational collapse is the outcome.
- In standard physics, blackholes or neutron stars emerge in the death of the star due to the loss of the pressure created by nuclear reactions. Ordinary BHs correspond to volume filling flux tube spaghettis consisting of M107 nucleons. TGD however suggests an entire hierarchy of BHs labelled by Mersenne primes and their Gaussian counterparts. Note that the p-adic cooling in the absence of nuclear reactions transforms M89 nuclei to ordinary nuclei and would lead to M107 BH. M89 blackholes could in turn emerge from MG,79 blackholes.
See the article Some solar mysteries or the chapter with the same title.
For a summary of earlier postings see Latest progress in TGD.
For the lists of articles (most of them published in journals founded by Huping Hu) and books about TGD see this.
Source: https://matpitka.blogspot.com/2024/08/the-questions-that-i-should-have-asked.html
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