Mistakes in Quantum Mechanics as Seen from the History of Science (4)

Neutrinos are electromagnetic waves with the shortest wavelength, and 66 billion neutrinos fall on the earth's surface per second per 1 cm^2. The medium of neutrinos is the nucleus. Neutrinos collide with and pass through almost all nuclei. what are the neutrinos doing?

Gamma rays are emitted from atomic nuclei

A phenomenon called scissors mode has been discovered. When a gamma ray hits the nucleus of a certain kind of atom, the nucleus deforms and emits gamma rays. Figure from https://www.qst.go.jp/site/press/1211.html

Figure 1: Absorption and emission of gamma rays associated with scissor-like oscillation of atomic nuclei (Scissors mode)

Atomic nuclei, but not all atoms, are known to absorb and emit gamma rays, vibrating and deforming. The size of an atom is about 120 pm to 200 pm. Gamma rays have wavelengths shorter than 10pm. shorter than the diameter of an atom. Orbital electrons called electron shells exist periodically within a radius of about 100 pm around the nucleus.

How the solar system works

By the way, the sun takes in the interstellar medium and blows out the solar wind. The solar wind gives the planets an electrical charge that keeps them in their orbits. The sun itself has a huge positive charge and the planets have negative and positive charges. For example, the Earth's surface rocks store a negative charge, while the atmosphere and ionosphere surrounding the Earth carry a positive charge. The earth is in a state of being attracted to the positive of the sun and repulsed. They are loosely tethered in the same way as orbital electrons.
The solar system also has periodic orbits of planets, just like atoms. The mechanism that keeps the solar system alive is due to solar oscillations, which oscillate every five minutes.
As the size of the Sun changes, the outpouring of the solar wind oscillates. Solar oscillation has the role of keeping the size of the sun constant and the role of stabilizing the orbits of the planets by creating standing waves.

http://ray.tomes.biz/rt113.htm

There is a diagram showing the standing waves and the positions of the planets when the solar oscillation is 5 minutes. You can see how the planet falls into the node of the standing wave. The same mechanism works in the state of electron jumping in atoms.

Atoms are maintained by neutrinos

A neutrino that plunges into the nucleus vibrates the proton surface. We call this proton oscillation. Since proton oscillation is an oscillation of an electric field, it spreads a very short electric field pulse around the nucleus. It can be expected that a gamma-ray standing wave is generated. Orbital electrons will drop into this standing wave node. This is the quantum leap mechanism.

Proton oscillations create standing waves around the nucleus

Protons and electrons contained in the nucleus loosely connect orbital electrons, and neutrinos create standing waves of gamma rays. Neutrinos are thought to supply protons with a charge. The neutrinos passing through the Earth are fewer than expected because they are attenuated as a result of passing through the enormous nuclei and giving them electric charges. Atoms are maintained by the charge supplied by neutrinos. Kamiokande cannot observe proton decay because it is constantly bombarded with neutrinos.
Quantum mechanics is said to be in good agreement with experimental results. It is thanks to statistical mechanics that the predictions of quantum mechanics are correct. Next time, I will briefly explain statistical mechanics and this new atomic model.