The proposal of a new field of quantum mechanics will inevitably cause some surprises and misunderstandings. Does quantum mechanics still involve new fields?
At the end of the 19th century, people discovered that old classical theories could not explain microscopic systems, so through the efforts of physicists, quantum mechanics was founded in the early 20th century to explain these phenomena, which fundamentally changed human understanding of the structure of matter and its interactions. In addition to the gravity described through General Relativity , all the basic interaction of can be described in the framework of quantum mechanics. Quantum mechanics is a branch of physics and mainly describes microscopic things. Although more than a hundred years have passed, the development of quantum mechanics has only reached about one-third, and about two-thirds are new fields of quantum mechanics, that is, fields that have not yet been explored and studied and discovered.
How did this third and two-thirds come about? Since quantum mechanics describes microscopic things, the 61 basic particles we have discovered so far are electrical particles ( atom is composed of atom nucleus and electrons outside the nucleus), and magnetic particles are still blank; matter is moving and changing, and according to the corresponding principles of classical theory and quantum mechanics, particles are also moving and changing, so the change transformation of particles is blank for quantum mechanics; and there is also how macroscopic mechanics and quantum mechanics agree on objective principles, etc. It is purely based on the corresponding principles of classical theory and quantum mechanics. If the classical theory is wrong, it is also wrong to explain it with quantum mechanics. This is the limitation of the corresponding principles. Based on these aspects, after repeated consideration, a new field of quantum mechanics is proposed hereby repeatedly.
1. The consistency between quantum mechanics and macroscopic mechanics under objective principle
The law of universal gravitation in macroscopic mechanics and gravitational field theory are inconsistent with quantum mechanics under objective principle. Because graviton does not exist in the microstructure of matter, or gravitons are not included in the structure of particles of matter, this is the fundamental reason why universal gravity is inconsistent in quantum mechanics and macroscopic mechanics, and it is also the fundamental reason why gravity cannot be unified with electromagnetic force, strong interaction force and weak interaction force. Therefore, we must explore the consistency between quantum mechanics and macroscopic mechanics under objective principles, and only explore the consistency between electromagnetic mechanics and macroscopic mechanics.
Electromagnetic mechanics is usually electrogenerated magnetic or magnetic electricity . Electromagnetic is the electric field to stimulate the magnetic field, and magnetic electricity is the magnetic field to stimulate the electric field. In both processes, there are internal fields and external fields. Both internal fields are electric fields, and the external fields are vortex magnetic fields. To continue to delve into it, you need to know how electricity generates magnets, and how magnets generate electricity? Or how to use quantum mechanics to explain the process of electromagnetic or magnetic electricity generation? And the consistency between quantum mechanics and macroscopic mechanics under objective principles must be followed. The consistency of objective principles is the consistency from objective phenomena to objective application under the influence of objective universality, objective repetition and objective equivalence.
The most classic and comprehensive electromagnetic mechanics on the macroscopic is Maxwell's electromagnetic field theory. In order to explain electromagnetic or magnetic electricity generation from the perspective of quantum mechanics, and to reach an agreement with macroscopic electromagnetic mechanics based on objective principles, Maxwell's electromagnetic field equation system needs to be corrected. The prerequisites and specific reasons are reflected in: First, Maxwell's electrogenerated magnetic or magnetic-generated equations (3) and (4) do not have a comprehensive internal field and external field, and do not follow the law of conservation of energy; second, Maxwell's electromagnetic field equations (4) can only explain the electromagnetic driving part, that is, the inner field part, and cannot explain the magnetic driving part, that is, the outer field part; third, according to the field theory of the coverage of microscopic particles in and the law of conservation of momentum , the left and right sides of the equation should be accompanied by the set of particle momentum mv.The role of the corrected system of electromagnetic field equations of Maxwell: First, it conforms to the law of conservation of energy and conservation of momentum; second, it is to find and discover more microscopic particles, and confirm the distribution and role of microscopic particles in the electromagnetic field; third, it is to find and discover the mutual conversion process of microscopic particles.
2. Exploration and discovery of mutual conversion between electrical particles and magnetic particles
neodymium magnet is also called neodymium iron boron magnet , which is a tetragonal crystal formed by neodymium, iron and boron. In 1982, Sagawa Masato of Sumitomo's special metal discovered neodymium magnets. The magnetic energy content of this magnet is greater than that of samarium-cobalt magnets. It is the material with the largest magnetic energy content in the world today. This magnet is the permanent magnet with magnetic properties second only to the absolute zero holm magnets, and is also the most commonly used rare earth magnet.
By chance, in a broken ring neodymium magnet, I separated the broken large and small magnets, and then used large neodymium magnets to attract small neodymium magnets. When they attract and collide, an electric spark will be generated. This is the case after repeated repeated tests. This shows that when the S poles and N poles of the magnet are attracted and collide, electrons will escape. Compared with microscopic particles, magnetic particles will be converted into electrical particles when they attract and collide. It is certain that in the experiment of electromagnetically driving , the vortex magnetic field causes magnetic particles to collide with each other and converts them into electrical particles, thereby causing relative motion between the closed circuit and the magnetic field. The induced current is generated in the loop, and the ampere force received by the induced current always hinders the relative motion.
powered conductors can deflect nearby magnetic needle , which means that vortex magnetic fields will be generated around the energized conductors. How does such a magnetic field occur? What will happen after the negative electrons emitted by the cathode of the photovoltaic collide with the positron of the anode? Doesn’t anyone want to understand these seemingly simple but so novel questions?
According to the consistency between quantum mechanics and macroscopic mechanics under objective principles, in the process of electromagnetic or magnetic electricity generation, there must be mutual conversion between electrical particles and magnetic particles. However, the structure of magnetic particles has been blank so far.
3. Exploration and discovery of magnetic particles
We know that matter is composed of molecules, molecules are composed of atoms, atoms are composed of electrons, protons and neutrons , protons and neutrons are composed of composite particle quarks, which is the constituent element of general matter, but this composition of substance cannot distinguish between magnet matter and non-magnetic matter. So how to distinguish between magnet substances and non-magnetic substances from the composition of matter? The source or original intention of natural science discoveries and progress is the question, which begins with raising conscious questions. Obviously, there must be magnetic particles in the magnet material structure, and the non-magnetic material structure is the general material particle structure.
Comprehensive all possible situations where magnetic particles may appear or produce, we can find and discover magnetic particles in the following four experiments: the first experiment is the process of electromagnetic generation, that is, find magnetic particles between the energized conductor and the magnetic needle; the second experiment is to find and discover magnetic particles in the expansion of electromagnetic drive experiment; the third is to hit the magnet with a large collision device to find and discover magnetic particles; the fourth is to use the negative electrons emitted from the cathode of the photovoltaic tube to collide with the positron emitted from the anode to find and discover magnetic particles.
In early June this year, an interdisciplinary team led by physicists at Boston College in the United States discovered a new particle called the "Axial Higgs Pattern", a quantum excitation that could not be detected before and is also a magnetic relative particle of the famous Higgs boson , which fully demonstrates the objective existence of magnetic fundamental particles.
