DE102015013298A1 - Feldbrückenschlag mechanism for controlling the angular momentum (spin) of the electron - Google Patents

Abstract

Designation The device with the field bridge impact mechanism for controlling the angular momentum represents another speed component in physics. It is not only the linear acceleration pulse, which is achieved in the circular accelerator with strong alternating fields, but also the angular momentum is crucial. Technical problem of the current accelerators Your acceleration voltage can not be selected arbitrarily high, otherwise there is a risk of electric shocks. The spin alignment is not sufficiently stabilized and can stagger at any time through the accelerator. Solving the Problem We can now use the Field Bridge Mechanism to affect the intrinsic angular momentum of all elementary particles. We can consider the acceleration and rotation fields as energy mediators. The energy eigenstate of the particle thus becomes larger and larger as a result of the action of the two types of velocity. 1. Rotating Fields 2. Static Fields Fields are energy suppliers and trailblazers to pass kinetic energy to the particle. The interaction energy introduced from the outside, ie the energy introduced by rapidly rotating magnetic fields, influences the electrons that are in the emission field between the cathode and the anode. (and) Application The field-bridge impact mechanism is another acceleration technique to achieve even higher collision energy in high-energy experiments. And we can stabilize the intrinsic momentum of all accelerated particles much more.

Description

The field bridge impact mechanism provides controllable control, in conjunction with the magnetic moment and the electric charge, to a variable angular momentum of the electron. When multiple physical effects in a particular geometric arrangement are combined in one device. Then a new particle accelerator with new energy values comes to light.

The current state of physics says:
According to the rule of quantum mechanics, the particles can have an intrinsic angular momentum which is a half or integer multiple of the reduced Planck's constant. In a very simplified way, one can imagine it this way: The rotating sphere has a half or integer spin. In addition, the combination of spin and charge gives it a magnetic moment, which means that it behaves like a magnet with north and south poles. Also this magnetic moment should have a certain value. They are all quantized so that only complete or half-valued values are created. Although orientation features have already crystallized out in spintronics, there are no other phenomena to be assigned to the spin.

Solution Presentation:

With the Field Bridge Mechanism I want to prove that the current idea of the spin does not correspond to the quantum mechanical reality.

With my device I can influence the angular momentum of the electron so that it can take on any value. What, then, is that the magnetic moment and the charge radius are changing. As the angular momentum increases, the charge radius becomes smaller and the magnetic moment increases. These three factors are always in interaction with each other. The spin is the point of attack with its magnetic moment and with the elementary tool (field-bridge-mechanism) we can penetrate further into the world of the smallest particles. The cascading process with its particles, charge and interactions opens new spaces for us.

Description 1: Physical Procedures - Field Bridge Mechanism

In the field bridge strike mechanism - - The three rotationally symmetric magnetic fields have a 10 ° inclination to the central axis, where the cathode and anode are, so that upwards the magnetic field configuration reaches an ever higher moving magnetic field strength. The direction of the rotation field lines rise from below, where the cathode is located, upwards, ie from the north to the south pole.

- - The electrons emerge from the cathode by field emissions. The high field strength emit and accelerate the electrons then to the anode. But they also hit gas atoms and beat out more electrons. It comes to a collision ionization of the gas atoms. This leads to an ever-increasing generation of ions and electrons. Since the electrons also have a magnetic moment, they orient either parallel or antiparallel to the emission field. All other orientations are therefore not possible quantum-mechanical rules that relate to the spin. Now that the electrons have leaked out of the cathode, they are subject to further electromagnetic phenomena. Charged particles moving in homogeneous magnetic fields cause a circular motion in the plane perpendicular to the field between cathode and anode due to the Lorentz force. The radius of the circular motion is then called the Larmor radius. But the particles have an additional velocity component towards the anode. It results from the superimposition of circular movements and a helical movement, because the course of the field lines no longer acts parallel to the drift direction, but propagates ever more inhomogeneous to the top of the anode. The Larmor radius gets smaller and smaller. So far, all physical phenomena are known.

• 1. Rotierende Felder (Feldbrückenschlag-Mechanismus)
• 2. Statische Felder (Längsfelder mit einem hohen Spannungspotential)

But there are other components in this action space that I have listed. We can manipulate the electrons even further. Now comes the Feldbrückenschlag to the fore. We still have the three rotation fields that surround the cathode and the anode. The fields are aligned so that they cause a vortex field compression upwards to the anode. But they all rotate in the same direction, in this case clockwise at a rotational speed of 20,000 rpm. Now the electrons get into the rotation vortex fields, which act from three sides, and take the electron in the shortage. Now the field bridge hit has started because the field lines of the magnetic moment of the electron have the same orientation as the rotation field lines - -. Now the rectified field lines repel and initiate an electromagnetic interaction. The number of rotating fields on the whole have a greater kinetic energy and pass it on to the electrons. Exactly this connection also arises with the linear or circular accelerator, with the difference that here the acceleration energy is supplied by several voltage fields over a longer distance. The particles rush through static fields and reach their kinetic energy Sumerian. Again, the angular momentum increases. By this combination:

• 1. Rotating Fields (Field Bridge Mechanism)
• 2. Static fields (longitudinal fields with a high voltage potential)

If we reach an addition to an even greater angular momentum of the electron. Thus, the electron-energy state is changed, which then on the lepton scale - - takes his position.

He may be in the stable zone or appear as another well-known particle z. Myon or tauon. For these reasons, the electron must contain an internal structure. The combination of spin and charge, which then causes a magnetic moment, occur as variable parameters. As the angular momentum increases, the charge radius becomes smaller and the magnetic moment increases.

Description 2: "Divided into 4 Physical Considerations to say that there must be a Field Bridge Mechanism"

1. Fields of electrons

The fields of the electrons act only in the atomic orbital, either they cancel each other, or some take a common direction and thus act from the orbital and contribute to the fact that magnetism arises.

The aligned electron fields also exert a force on the atomic nucleus. Now comes the question: where does the magnetic field come from? From the nucleus or from the aligned electron fields? Magnetism comes from the atomic nucleus.

The electrons are just the wheel of matter. They exert a force on the nucleus with their fields and only this resulting force causes the magnetism from the atomic nucleus. This little triviality includes all other oddities from the quantum world.

Since different fields are produced in the atomic structure by the spin of the particles, we must assume that the influence of the fields with the field bridge impact will also extend to the protons and even further to the quarks. Maybe there are hitherto unknown physical phenomena that could solve our riddles in one fell swoop.

Just think of the proton paradox. Two experiments give different values for the radius of the proton. Measurement errors are extremely unlikely. Replacing the electron with a muon has changed the internal structure of the proton. The 200-fold stronger energy of the muon makes the proton smaller.

Thus one can say:
All orbital vortex-shaped motions decide on the energy storage in the atomic nucleus as well as in the proton.

The core becomes smaller and more compact and can thus create elements and more orbiting electrons mean more protons.

We have to ask ourselves why the number of protons and electrons is always the same, because there has to be a very big connection that no one has really understood. In order to get to the core, we needed an unimaginable force to make a difference. But since the electron is very easy to handle, we prefer to care more about the orbiting electron. This also results in new theories, so that the journey through particle physics continues. We have to go through this new experimental path with the fields into the depths of the subatomic particles, but the approach must be gentle and slow. The whole collision experiments do not describe the whole content of the matter. The course of the collisions can not be completely recorded by the measuring instruments on the time line. Our conception of time does not correspond to the actual flow of time in relation to matter. Collision events flash past the measuring instruments and do not even say hello.

Matter is made up of ever smaller particles until it finally eludes any investigation by physical instruments. These particles help to bridge the gap between visible and invisible reality.

2. The isolated electron in a moving magnetic field

The behavior of a stored electron is best understood by considering a simple system first. In this case, we consider an electron that moves in a homogeneous magnetic field. The magnetic field is represented by field lines that are parallel and equidistant from each other. The energy of the moving electron depends on the direction of the magnetic moment. It is the smallest when the magnetic moment and the magnetic field have the same direction - - and it is greatest when both directions are opposite to each other - -. The magnetic moment of the electron can only have one of these two orientations, either parallel or antiparallel. All other orientations are not possible by quantum mechanical rules that refer to the spin and thus indirectly to the magnetic moment.

With this theory, we now continue with the electron. The electron is exposed to a rotationally symmetric magnetic field, which causes the spin to increase. Increasing the self-rotation also increases the magnetic moment, which is also referred to as g-factor 2. If the electron were now back in the atomic orbital, then there would be a structural change in the orbital and even in the atomic nucleus. Some electrons would experience a force that would affect the spectral lines.

On this - - We see that the charge carriers (electrons) drift from the cathode to the anode. The rotationally symmetric magnetic fields are placed at three points offset by 120 °. The rotating field lines rise from below, where the cathode is located, upwards. The magnetic moment of the electrons points downwards (small arrow). Thus, the energy transfer is greatest when both directions are opposite each other. The three rotating fields are many times larger than induction, which we also use to generate electricity. Because the number of rotating field lines roam the inner structure of the electron more. By controlling the speed you can vary the process. Thus, the rotation of the spin, which equates to energy, gets bigger and bigger. The influence of the electron can be considerably increased.

Elementary particles belong to groups of different energies, but of the same kind as the group Leptonen scale shows.

- - There are particles in different energy ranges. There is a stable zone with positive as well as negative spin. As the energy range of the particles increases, the appearance time continues to fall. Look at the muon or rope. Now imagine that collision experiments produce particles from the stable zone as well as particles coming from a less stable zone where the time frequency is smaller. Of course, the particles also correlate with each other and possibly enter new compounds. These are the particles we can measure, at least some of them. Thus, it can be said that the measured particles are not only the ever smaller particles flying away in all directions, but also correlating particles which have an inexplicably larger mass than the pre-existing starting situations.

3. Main quantum numbers

The main quantum numbers describe the energy of the electron. Another sets the angular momentum, a third represents the orientation of the angular momentum in an external magnetic field, and a fourth quantum number is the electron spin. Now the structure of the atoms and the periodic table of the elements can be explained. That said earlier does not have to correspond to the final state of the energy state of the electron. There may be many more secondary quantum numbers than just the main quantum numbers themselves.

The explanation of the Zeeman effect results from the conditions of the electron on its orbits by the connection with an external magnetic field. There are still many questions and unresolved puzzles in this consideration. As soon as magnetic fields come into play, spectral lines show great oddities and already the theory can no longer be explained. But then it was discovered that electrons themselves have magnetic properties, so that electrons have a kind of spin, a spin, which causes a magnetic moment. Although this explains some spectral lines, but by no means the many others at a magnification. In addition, there must be some phenomena that affect the electron in its orbits around the nucleus. The four or five quantum numbers are far from sufficient to explain all states. You can do a lot with the electrons. The electron has an internal structure, it makes itself felt with its spin and its magnetic field and there lies the dog buried. With the field bridge beat, the energy content of the electron can be increased immeasurably. When re-inserting the electron into the atomic structure, the element could chemically re-act, which of course would have a major impact on the chemical bond. Then there would be a new chemical-molecular development with new materials.

4. induction current

The induction current occurs as the number of field lines passes through the area bounded by the wire and changes. Thus, a current always flows when the magnetic field changes or the circle is deformed or moved. The main thing is that the number of magnetic field lines is moving. But the field line also goes through the wire. The wire consists of atoms and electrons orbiting around the atoms, thus the field lines whip on the electrons, which are indeed carriers of the current. The electrons in the atomic shells, which are only loosely integrated, can detach from the dressing and contribute to the current. Your energy is thus increased. The electron not only experiences an impulse, but also the structure experiences a force, which causes the spin to increase.

From this follows the law of characterization of the electron.

When an electron passes through a magnetic field, the action of the moving field line leads to an increase in energy, which is also called characterization. The electron then retains its energy and places itself in the stable zone at 0.51 MeV - - (lepton scale).

It is said that the spin of the electron can not be changed. This is a characteristic property of each particle. Electrons have neither a measurable extent nor an internal structure. They behave like point-like fundamental particles. Even in the case of experiments with experiments, the electron showed no signs of even smaller particles. I would say that we are not right on all counts. But if you could slow down the angular momentum and accelerate, then it would eventually be the different particles such. As electrons, muons and tauons explain. But the electron is the wheel of matter in our world, it has a far greater inner life than we can imagine.

The device that incorporates the rotationally symmetric magnetic field may have a beginning to better understand the electron. Of course, a few more points need to be explored on a larger scale. I hope for your interest, because my resources are far from sufficient to go the new physical way. I may have placed a new switch and now the track needs to be removed.

Contents of the abstract and disclosure of the invention

With the field-bridge mechanism, I want to prove that the electron is not point-shaped. The electron has an internal structure and expresses itself in the form of a field (g-factor 2 ...). In the field there is an ever higher energy concentration the closer one gets to it, or it can be called an infinitely large amount of electromagnetic own mass. We can not express our own infinite supply of energy with numbers. With my device I attakchier the electron fields, which are numerous between the cathode and the anode. - - I call this process Feldbrückenschlag mechanism. Thus, the electron-energy state is changed, which then on the lepton scale - - take his positions. It may be in the stable zone or appear as another well-known particle. We do not have to hunt the elemental work through kilometer-long accelerators to absorb kinetic energy from another electromagnetic field. We can also attach the fields ourselves with a crazy rotation around the particles, since they have an internal structure, they are subject to the field-bridge mechanism. In this way, the energy state is also increased. All elementary particles that have a spin and charge are affected by the field impact mechanism. Maybe we are on the track with my theory to solve the problems that are related to the internal structure of the electron. Hereby I would like to come to an end with the theories for the first time. I hope to have formulated my own little comments on the design of the understanding of physics in such a way that I have raised the interest in the physicists.

Claims (1)

The device for the field bridge impact mechanism includes the following structural features. So that the static acceleration fields and rotation fields come to an electromagnetic interaction. 1. The rotationally symmetric magnetic fields are placed at three points, offset by 120 ° to a circle. 2. The emerging rotational field lines rise from bottom to top. There, where a larger field compression occurs, is the anode. 3. The three magnets each sit on a tip of the rotary shaft of the motor and all have an internal inclination of 10 ° to the anode, so that it comes in the upper field areas to a rotational field compression. 4. The field emission points are located exactly in the center of the three rotation fields surrounding the cathode and anode. 5. The three magnets are made of Neodyn (Nd). The speed of the motors is 20,000 rpm.

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