Honghuang, I am engaged in science and technology in the Wuzu

This strong interaction force experiment uses a giant magnetic field compressor, which uses strong magnetic force to bind protons, that is, bind hydrogen ions.

The magnetic field compressor is built on a huge space square, which has a radius of 10 kilometers, and the ground is a very strong metal and does not conduct magnetism.

The superconducting coil is wound in a set way, which collects magnetic field lines in a pipe less than 1 cm in diameter.

This centimeter-thick pipe is up to a kilometer long, wrapped in a thick magnetic permeability layer, and all the magnetic field lines converge inside the pipe, which can compress charged particles.

The superconducting coils outside the pipeline reach a thickness of three kilometers, and these superconducting coils need to be wrapped with a strong insulation layer on the outside for isolation protection because the current is too large.

Why do you need a magnetoconductive layer?

The magnetic field is different from the electric field, and if the magnetic field line and the power line are visually explained, the power line can be truncated by using a conductive metal layer connected to zero potential, thereby shielding and isolating.

The magnetic field lines must be closed and always form a loop, so the shielding of the magnetic field can only be by forming a short circuit, never by truncation, so those methods that rely on the use of non-magnetic materials to block the magnetic field are not possible.

Everything in the world is magnetic, vacuum is magnetic, the size is different, and it is almost impossible to cut off the magnetic field.

The construction of a giant magnetic field compressor requires the use of a super magnetic permeable material, and the amount used is also very large, in order to shield the magnetic field, a full number of kilometers of thickness are required, so as to prevent the powerful magnetic field from leaking out.

The shielding magnetic field is generally based on the “short circuit” of the magnetic conductive material, if the shell of the compressor is made of high magnetic conductivity material, the “magnetic field lines” that will pass out of the box will be concentrated on the box material to form a closure, and the leakage out of the box will be greatly reduced.

As a shielding effect, the higher the magnetic permeability of the material, the better, the same material, the thicker the better, the same material and thickness, the more layers, the better.

Let’s talk about the magnetic field generator.

The magnetic field generator requires several sets of superconducting coils for control, which can not only control the size of the magnetic field output, but also perform position fine-tuning, and operate with great precision.

The magnetic field is generated by the superconductor coil, and the superconductor coil is energized to generate a magnetic field, but the impedance of the superconductor is 0, and the current passing through will not generate heat, and theoretically it can generate an infinite magnetic field through an infinite current.

This is the giant magnetic field compressor, this compressor has epoch-making significance, the magnetic field compressor controls the magnetic field that can change, can dynamically change the magnetic field strength.

This is a magnetic field line emitting device, which emits the magnetic field like a laser.

This creates the problem that the compressor cannot be built with iron-containing materials that are easy to magnetize, and the core that generates the magnetic field must be a super soft magnet.

The super soft magnet must not be able to leave magnetic field energy, so that it can control the power emitted by the magnetic field and control the flight of the spacecraft.

Super soft magnet material has good magnetic permeability when the coil generates a magnetic field, and can emit nearly 100% of the magnetic field, if this effect is not achieved, it is difficult to control the real-time change of the magnetic field.

Secondly, there is the problem of magnetic leakage.

If the magnetic field is very large, then the magnetic field energy density leaked out is very terrifying, cutting the magnetic field line will produce a huge potential difference, and even directly melt the conductor, so this compressor can not cut the magnetic induction line, otherwise it will directly cool the conductive material melting, must use strong magnetic conductive materials to shield the entire compressor, to prevent too many magnetic field lines exposed to the outside, but also to avoid the use of coil materials.

Finally, there’s the super container.

The principle of this plan is actually very simple, using superconductors to form a super magnetic field, which will pass through a semi-closed, super strong container.

This super-strong container is very special, with a very dense atomic arrangement, which is the strongest material developed by Brilliant Technology Company.

This metal is very hard, this metal can withstand thousands of atmospheres, but it is extremely easy to oxidize and must be used in a vacuum.

The production method is very complicated, several metal copper, lithium, sodium, carbon several elements, with a certain proportion of mixed, and then let them evaporate into gas in the vacuum of the universe, if the conditions are suitable, such as pressure, temperature energy, etc., will gradually form a mixed metal molecule, composed of these four elements of special metal molecules.

Under high-heat metal steam, this special metal molecule is very unstable, if this molecule is refined, it will get a very dense alloy after cooling, the metal bond is very strong, can withstand tens of thousands of °C high temperature does not melt, can withstand millions of atmospheres.

Not far from the magnetic field compressor, there is also a nuclear fusion reactor that will provide energy for the magnetic field compressor.

“Start starting!”

With the input of the command, the fusion reactor began to rotate, powerful electrical energy was delivered into the magnetic field compressor, and a strong current began to appear in the superconducting coil, creating a huge magnetic field.

Then, hydrogen ions are continuously injected into the magnetic field compressor, and then released by the magnetic field into the super container, and then cooled by the super container.

As more and more hydrogen ions in the super container appear, the magnetic field inside the catheter begins to increase, and under strong pressure, the hydrogen ions in the super container begin to liquefy.

But the magnetic field is not large enough, the magnetic compressor began to increase the power, 1T, 2T, 3T, all the way to 80T, the air pressure in the super container increased rapidly.

When the air pressure increased to several million atmospheres, the hydrogen ions finally changed a little, and their volume began to compress.

When shrunk to half the volume, hydrogen ions begin to solidify, and a metallic luster begins to appear on them.

“Stop running the magnetic field compressor!”

With the command, the fusion reaction begins to stop, and it can be seen that hydrogen ions turn into metals.

Like the theoretical calculations in the laboratory, magnetic compressors actually produce metallic hydrogen, which is a huge improvement.

Metal hydrogen is liquid or solid hydrogen under millions of atmospheres of high pressure into a conductor, conductivity similar to metal, so called metal hydrogen, is a high-density, high energy storage material, theoretical research shows that metal hydrogen is a room temperature superconductor.

After obtaining the metallic hydrogen, the staff will encapsulate the precious metallic hydrogen, and it will be sent to the top materials laboratory on the planet X001 for testing.

“Continue to make other specialty materials!”

With the command, the team began compressing other elements, this time helium.