Magnetic Hole. Pictures.

Magnetic trap is an object, unifying hypothetical objects, connected primarily by magnetic forces: neutron drop/liquid; neutron hole; magnetic hole ...

Magnetic hole is a plane/flat analog of the black hole. The black hole is bounded by gravitational forces, and magnetic hole is bounded by magnetic forces, which are dozens of powers stronger than gravity forces.

It is probable that the microscopic magnetic holes can be created at the collider. Magnetic holes will grow capturing the normal substance. As a result, magnetic holes can destroy the Earth. The Solar System can be transformed in the ring structure, analogues to the ring structure of exploded star SN 1987A.

The black hole are usually drown in the form of a funnel.

That is an approximation. The funnel does not directed everywhere: no to the right, no to the left, no forward, no back... From the point of view of the distant observer, standing a the point A, the time-rate, visible on the watches, placed at points B, C, D, F, E, ..., goes the more slowly, the nearer this point is situated to the event horizon, denoted by the letter G. The distances between every neighbor points of these set are equal, but the visible density of points are growing at our schematic figure. If the observer would drop a stone into the black hole, the stone will never achieve the event horizon. Because the distance from A to G, from the point of view of the observer A is infinite. Or we can say, that the time-rate stops at the event horizon.

If at the center of your room there is a black hole, then the distance from any point of the room to the event horizon of the black hole will be infinite. That can be shown as in the bottom figure.

Radial distances between every neighbor blue circumferences at the figure are equal, but on the figure we can see these distances unequal. And just near the black hole's horizon the circumferences form one continuous blue ring.

The black hole itself is depicted on the figure by the black circle. There is no space inside the black hole, relatively the external observer, - the black hole is behind the event horizon.

If an apple of mass m would begin to drop into a black hole, it will become smaller and smaller. Gravity influence of an apple itself on observer will be diminishing, but the gravity influence of a funnel will grow correspondingly. We can say, that mass of an apple transforms into another form of matter, into a space-time of a growing gravity hole.

Microscopic black hole, which can be made on Large Hadron Collider can have extremely small radius, smaller than 10^-51 m. That is 10³⁵ times smaller than Compton radius of proton. But the mass of such microscopic black hole (mBH) can be greater by several thousands times. It is clear, that such mBH can not swallow the whole proton at once, if we will not assume the hypothesis of quantum capture. From the other hand, we know that proton consists from tree quarks. We can assume, that mBH can try to swallow the quark. It is known that the quark can not exist alone. Consequently, at the time of capture, the thread, connecting the quark and the rest of proton, will broke, and at that place, the pair of quark-antiquark will appear. As a result mBH will swallow the quark-antiquark meson; and the proton can be transformed into a strange matter, if the pair was strange. This idea is also quite hypothetic.

Magnetic holes are much more real and much more dangerous. But at first, let's recollect, what is the physical vacuum? It is known, that a variety of virtual particles and antiparticles are constantly appearing and disappearing in the physical vacuum. These particles are named virtual because of a very short time of their lives. The span of their life-time is limited by the quantum uncertainty principle.

You can see at this figure the "virtual chain" of transformations. The events go from the left side to the right. Virtual photon, γ, transforms into a virtual electron-positron pair, e^-e⁺, which after painting a circumference, transforms into virtual photon again. Virtual pair e^-e⁺ creates a magnetic field B, with the configuration, analogues to the field of bar-magnet. Such elemental magnetic dipoles are created spontaneously everywhere and always. Because of their chaotic orientation, the average total magnetic field in the vacuum is equal to zero.

In this article we assumed, that the magnetic hole can be imagined as a set of microscopic circular currents, created by the real charged particles. The magnetic dipole can be observed from its North Pole (blue), or from its South Pole (red), or under some angle.

In a space with zero magnetic field, the density of red circles are equal to the density of blue circles. If the density of some circles is greater than other, then in such place we have non-zero magnetic field. If in some place we see only one type of circles, then in this place we have the maximum possible magnetic field.

At this figure you can see the microscopic magnetic hole.

On the next figure we ca see, how the magnetic hole captures nucleon's restlets. We assumed, that at the time of the capture, the proton ejects the positron and becomes the nucleon's restlet, boson. The same boson is appear at the time of neutron capture, which accompanied by the ejection the antineutrino. The restlets are quanta of force magnetic field, or frozen force lines of the magnetic hole.

Why "frozen"? The dropping of bosons also lasts infinitely long, from the point of view of distant observer, as it was in the case of the black hole. Boson becomes nearer and nearer to the plane of the hole, and makes it wider, constantly increasing its radius.

At the next figure, this idea of the eternally dropping bosons is repeated in the form of the change of the spatial scales, relatively distant observer, looking at the microscopic magnetic dipole, falling at the hole. The scales do not change along the axis x and y. But the z-scales reminds us the behavior of the black hole at the fig. 1. The limiting point G can be situated anywhere in the plane of a blue circle. This circle plays the same role as the sphere of Schwarzschild in the black hole.

If the mass of growing magnetic hole becomes quite big, then the gravity funnel of magnetic hole becomes more essential, and the x- and y-scales are also change.

Hypothesis.

Gravitational field of the magnetic hole is anisotropic. Let magnetic field is oriented along the z-axis, then the gravity field will be directed along the plane xOy. This can explain, why the majority of galaxies are flattered, and why the peripheral stars of galaxies have abnormally high velocities. On the next figure we can see the approximate directional diagram of the gravitational (black) and magnetic (blue/red) fields of the magnetic hole.

Anisotropic gravitational field diminishes more slowly with distance as it was in the case of spherical symmetry. It is very probable, that in the centers of many galaxies there are huge magnetic holes. Such huge hole forms the flattered structure of the galaxy, and can eject electrically charged relativistic particles along the hole's axis. The last is possible if the hole is surrounded by the ordinary matter, accreting at hole.

The next two figures are related to the neutron drop/liquid and to the neutron hole.

If the distribution of electrical charge in particles is not homogeneous, then the particles can form the systems, connected by the electrical forces.

The total magnetic field of this substance is equal to zero. As a result, this system does not create the sufficiently strong attractive force in order to capture a new particle.

It is supposed, that under the influence of external magnetic field, or under the influence of starting strong internal magnetic field, the particles, or Cooper pairs of particles, behave like a particles in a ferromagnetic. Particles attract each other in the plane of the bottom figure by the electrical forces; and in a perpendicular direction - by the magnetic forces.

The more particles in a system - the more attractive force along the magnetic axis. The growth of the system is possible, if the growth along the magnetic axis is more preferable energetically, comparatively to the growth in the perpendicular plane. It is possible to test this hypothesis at the Large Hadron Collider, with successive explosion of the Earth.

Magnetic trap of Devil. What is Big Bang and who is bigbangers?
Two independent methods give exactly the same results. Magnetic trap is possible at 0,25TeV proton-proton collisions.

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Very truthful hypothesis - Reproduction of biospheres and civilizations

Reproduction of biospheres and civilizations. Who are you, dear reader:
"a cell of good reason", "a curiosity cell", or "thoughtless muscular cell"?

Magnetic trap of Devil. Recent calculations show that it is not excluded that microscopic magnetic traps
were already created, and they are growing now somewhere inside the Earth.

Arguments, proving that "The LHC will lead to global catastrophe"; "Magnetic holes exist";
"We will not be able to prevent the LHC launch and the following global catastrophe". Religious and mystic arguments.

The failed report "What will LHC give us, the particle of God, or magnetic trap of Devil?"

The Letter to the President of Russia.

The Letters to the Prosecutors Office of the Russian Federation.

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