Hand rubbing nuclear fusion live in the wilderness

Chapter 530 Special Materials
In addition to clarifying the formation mechanism and energy release mechanism of H particles, this set of explanations is most useful to Won because it is based on the theories allowed by today's particle physics and high-energy physics.

This can be said to have saved the crumbling physical building.

After all, from the original theory of particle physics, something like cold fusion is impossible.

Of course, this "cold fusion" refers to the kind of fusion reaction that can stably output energy, rather than the so-called cold fusion that consumes a lot of energy but only obtains a very weak energy reaction like the University of California.

In the final analysis, the external charge of the atom and the initial nucleus are both positively charged, and they will be strongly repelled when they are close to each other.

So in theory, only atomic nuclei with high kinetic energy can counteract this repulsion, and then collide and fuse together tightly.

But if we find a way to strip the external electrons first, and then weaken the electromagnetic repulsion of the protons in the nucleus, then the nuclei do not need high kinetic energy to counteract the repulsion to contact each other.

In this case, fusion at room temperature can indeed occur, and it is also in line with today's particle physics and high-energy physics theories, and has not exceeded.

The most difficult part is solved, and the remaining problems such as how to guide the energy generated during fusion are relatively easy to solve.

So cold fusion can indeed be done on this basis.

It's just that what Han Yuan didn't figure out is how the electromagnetic repulsion carried by the protons on the atomic nuclei in the H particles is suppressed.

Compared with how to peel off the external high-energy electrons, the difficulty of this thing is simply to let your left foot step on the right foot.

But in general, this new set of theories still explains the fusion phenomenon of H particles, and it is in line with current particle physics.

More importantly, this set of theories is supported by data.

The strong mathematical ability not weaker than the world class and the high-energy particle collider at the bottom of the feet gave the Korean won support.

Including mesons, fusion requires a distance of less than ten minus thirteen meters, etc., which he has observed and calculated through continuous experiments.

After all, if it is just a set of conjecture theory without data support, it is nothing at all.

It is not difficult for anyone to open their minds, and it is not difficult to come up with a seemingly reasonable way to explain a physical phenomenon.

The hard part is to perfect the data for your theory.

For example, Einstein won the Nobel Prize not because of his theory of relativity, but because he put forward the photon hypothesis theory and photoelectric effect theory.

After solving the physical theory that almost collapsed due to the fusion reaction of H particles, Han Yuan breathed a sigh of relief.

If physics fell into his hands, it would be a real scam, but fortunately, this kind of thing has not happened yet.

As the problem of H particle fusion reaction was solved, Han Yuan also keenly realized that the equipment using energy stones was not so simple.

At the beginning, he thought that the energy stone was the key to this new type of energy, but now it seems that the transparent box seen in the energy room and the equipment removed from the Eye of the Sahara base are not too much. , the importance is definitely not low.

The secret of suppressing the electromagnetic repulsion of the protons in the H particle nucleus, stripping the outer layer of high-energy electrons, and absorbing and transforming the energy of nuclear fusion should lie in that special material.

It's normal to have this kind of thinking, but at present, he only has a piece of equipment brought back from the Eye of Sahara base. Because of the need for experiments, it is impossible to dismantle it and get the special material inside for research.

After thinking about it, Han Yuan greeted Xiao Ling and asked him to arrange an aircraft to take a few X-1 industrial robots to the Sahara Desert again, and then dismantle another piece of equipment.

Although I haven't figured out what the use of these equipment is, I will encounter the problem that the dismantled equipment may be very useful, but scientific research is not a waste.

And when dismantling that special material, he will try his best not to damage other parts.

When the research is over, maybe we can find the manufacturing method of that special material, and then restore it?

The speed of industrial aircraft is extremely fast, and it takes less than five hours to cross the Atlantic Ocean from South America with no one on board.

Soon, a device using energy stones was sent into the laboratory by an X-1 industrial robot.

Han Yuan carefully used tools to disassemble the almost seamless device, revealing the energy release device with the energy stone inside.

It was a not-so-big transparent box, and there was also an energy stone inside, which was about the same size as the one he used for experimental research, only palm length, less than fifteen centimeters.

Energy stones also have sizes. The energy stone in the energy room that supplies energy to the biological laboratory in the Eye of the Sahara underground base is the largest, nearly half a meter long.

The energy stones used by other equipment are slightly smaller.

But even if it is smaller, the energy contained in these energy stones is still astronomical.

After taking out the energy stone from the energy release device, Han Yuan was cruel, and directly disassembled the beautiful energy release device in his hand, which looked like a work of art, into six petals, each of which was a regular square, like Like a piece of high-transparency glass.

The Korean Won is good at shaking hands. This energy release device is quite heavy. Each piece is only [-]cm by [-]cm in size, but it weighs at least [-] catties.

This weight far exceeds the weight of real glass of the same size.

There is no surprise about the abnormal weight of won. This is a very normal thing. After all, weight comes from density. A substance that can bind fusion nuclei and absorb huge energy must not be so small in density.

The dismantled glass was sent to various testing equipment such as elemental analyzers and infrared spectroscopy, and Won was waiting for the test results.

The special material in this kind of energy release glass is sandwiched inside. In order to better disassemble it, it is necessary to figure out the structure and condition of each part before doing it.

Of course, it won't take too long. The various testing instruments in his hand are quite complete and advanced. In addition, there are six pieces of energy-release glass, which is enough to carry out many testing items at the same time.

After waiting for more than an hour, various testing items began to be completed one after another, and the relevant data was also sent after being processed by Xiao Zero.

"The performance of the Raman spectral data peak diagram is a bit strong, which is much more obvious than the weak data of ordinary substance molecules, but why does it feel familiar?"

In the laboratory, Han Yuan stared at a data peak map transmitted by the Raman spectroscopy data analyzer on the virtual screen in front of him, feeling inexplicably familiar.

He felt as if he had seen a data peak diagram of this kind of curve somewhere.

The main reason is that the Raman spectrum data of this energy-releasing glass is a bit prominent, so it is particularly conspicuous.

Raman spectroscopy detection is a method of scattering spectroscopy detection, based on the Raman scattering effect discovered by Indian scientist CV Raman.

It is mainly an analysis method that analyzes the scattering spectrum different from the frequency of the incident light to obtain molecular vibration and rotation information, and is applied to the study of molecular structure.

This is a detection method widely used in various disciplines such as chemistry, physics, biology, medicine and materials.

However, generally speaking, the Raman spectral data of most substances are quite weak, and it is necessary to use an enhanced signal method to obtain more detailed and analytical data.

Moreover, this kind of enhancement starts at the third power of ten for ordinary glass, and some special materials even need to be strengthened to the seventh power of ten to obtain clear and complete data.

There are almost no materials such as energy-saving glass that are represented by Raman spectroscopy data. Anyway, Korean Won has not seen a few.

Thinking about it, Han Yuan flipped through other similar data maps, and the familiar feeling came to his heart again.

"By the way, the Raman spectral data peak diagram of lanthanum gallium silicon solar thin film power generation panels seems to be similar to this."

Suddenly, Han Yuan's eyes lit up, and he remembered where he had seen this type of data map before.

"Xiao Ling, let's make a side-by-side comparison of the Raman spectrum data peaks of the lanthanum gallium silicon thin-film solar power generation panel."

This kind of data must be preserved. Even if the central computer is updated several times, the original data will definitely be migrated along with it.

He didn't think about it for a while, because it was a long time ago that the first manufacture and inspection of lanthanum-gallium-silicon solar thin-film power generation panels was done, almost four or five years ago.

In the past four or five years, he can't remember how many kinds of materials and equipment he tested. There are too many of them.

"Received, master, the data has been delivered."

For an artificial intelligence, finding a piece of data in a computer is as easy as picking up your mobile phone.

Accompanied by Xiao Ling's voice, a brand new data display map appeared directly in front of Han Yuan.

Two peaks of Raman spectrum data that look almost identical occupy the virtual screen, one on the left and the other on the right.

With a glance, Han Yuan determined the difference between the two pictures.

There are indeed some differences, and there are some differences in the peaks between some small areas, but overall, they are almost exactly the same.

"Could it be possible that this special material is a thin film of gallium lanthanide silicon?"

Han Yuan stared at the data graph in front of him and touched his chin, feeling a little unbelievable.

He did not expect that the data of the special material in the energy release glass would be so similar to that of the LaGaSi thin film in the Raman spectrum data peak diagram.

But looking back, this doesn't seem like an unacceptable thing.

He is very clear about the properties of GaSilicon Lanthanide thin films. This material has the property of absorbing most of the energy in the visible light band.

In the final analysis, visible light is actually just a kind of electromagnetic wave, and the transmission of energy by electromagnetic waves is naturally carried out by electromagnetic radiation.

In this way, the special material in the release glass may contain certain gallium lanthanide alloy materials.

Won did not dare to say that this special material is gallium lanthanide alloy, because this is not shown.

The lanthanum-gallium-silicon thin-film solar power generation panel made of lanthanum-gallium alloy is terrible for the use of light energy, but it cannot reach the level of energy-releasing glass for the absorption and utilization of nuclear fusion energy.

The absorption and utilization efficiency of this thing for radiation is terrifying. Judging from the latest detection data, whether it is visible light, infrared light, or ultraviolet light and other electromagnetic waves irradiated on this energy-releasing glass, the radiation contained in its light particles Energy can be absorbed by more than 80.00%.

Although the difference between 80.00% and 70.00% of lanthanum gallium silicon solar thin film power generation panels is only [-]%, the former is for all electromagnetic wave bands, while the latter is for visible light wave bands.

And this kind of material, strictly speaking, its energy-absorbing effect is not aimed at electromagnetic waves, it is aimed at the special radiation that comes with H particles.

The energy absorption of electromagnetic waves is just a side effect of it.

To put it another way, the first thing Han Yuan thought of was, if a fighter jet is made of energy-saving glass, there is a high probability that this thing will be invisible all the way, right?
It absorbs all electromagnetic waves in all bands, and radar can't detect this thing at all.

Moreover, after this thing goes to the sky, no one can contact me. After all, the current communication technology used by human beings is based on electromagnetic waves of different bands.

A solid stealth fighter.

This alone will definitely make tears flow from the mouths of all countries.

"Master, the data from the atomic composition analyzer has been delivered."

After thinking about the use of the energy-releasing material in the energy-releasing glass, Xiao Ling's voice awakened Han Yuan.

A new data table appeared in front of his eyes.

Is the composition structure table of energy release glass.

[Silicon, atomic proportion 38.76%]

[Oxygen and atoms accounted for 21.34%]

[Lanthanum, atomic proportion 7.29%]

[Gallium, atoms accounted for 6.21%]

[Carbon and atoms accounted for 1.34%]

【.】

The detailed molecular composition of a piece of energy-releasing glass shown in these data tables can be specific to the type and composition of each molecule, but it is limited to this.

If you want to know whether there is a certain compound in it, such as gallium lanthanide alloy, silicon dioxide and other materials, you need more detailed means, at least the atomic composition analyzer cannot do this.

However, from the data detected by the atomic composition analyzer, it can be seen that his previous speculation was correct. Among the special materials in the energy release glass, there is a high probability that the alloy material of gallium lanthanide is contained.

And maybe it has the same special crystal structure as the gallium lanthanide silicon thin film, because the special crystal structure of hexagonal honeycomb is quite suitable for capturing radiation.

For these things, even if the energy sources and particles are changed, the underlying thinking and structure will probably not change much.

It's something dictated by the laws of physics, and it's hard to find replacements.

And compared to energy stones, South Korea pays more attention to the special materials in energy-release glass.

Because he knows very well that unless his theory breaks through another level, or even two or three levels, it will be possible to solve and create such things as energy stones.

But on the contrary, this special material can be manufactured with a certain probability based on his existing industrial foundation.

And the purpose of this thing, needless to say at all.

(End of this chapter)