Rule system

Even before a minute, Zhao Wei did not show what ultra-high temperature superconducting materials, his mind is not here.

There are too many theories related to the superconducting in the physics industry, and the superconducting problem cannot be said to be completely crack, but the surface can be found, most of which have discovered, theoretically, there is no great exploration space.

Zhao Wei's focus on theoretical research, and the research of ultra-high temperature superconducting materials belongs to technology.

The difference between the two is very large.

The main purpose of the theoretical group experiment is also to analyze space, research theory, during the experiment, the new type of compressed material is only included, and most importantly, according to experimental results, improve Z-wave related spatial theory.

This is the ultimate goal of the experiment.

When I heard a lot of people, I'm thinking about the super high temperature superconducting material, Zhao Wei thoughtfully thought about it, and it was really a very good idea.

Although he does not focus on research technology, it is an unexpected harvest during the experiment.

Just like others analyzed, it is highly likely to get ultra-high temperature superconducting materials. Because of ordinary metal compression, conductivity can be strengthened, affirmation and internal and electron activity enhancement.

In fact, the principle of superconducting is different from ordinary metal conductivity.

The principle of superconducting format is that when the temperature is low to the critical value, the atomic electron-out electronic speed is lowered, the price electron operation rate is getting lower and lower, the atomic accustomed to the rapid operation of the nuclear electron, the price and the operation of the electronic operation, slow operation, There created the phenomenon of temporary lack of electronization.

The atom is temporarily lacking electron, which forms a large electron vacancies, the voltage wave is smooth, the valence is electronically moving under the action of voltage wave, forming an electron flow of an agricultural electronic public.

This is the superconducting current.

The principle puts the foreign electronic flow, as part of the electronic part of the needs, transporting it with the core of Coulomb, let it flow around yourself, so superconducting current is not only from resistance, but also a copy from The core transportation power.

Under the relay delivery of atomic Culomb power, the electron is unimpeded, and the superconducting phenomenon of resistance is zero.

From superconducting formation, superconducting and ordinary metal conductivity can be found, the principle seems to be trivy.

Superconducting is low temperature to reduce electronic speed, resulting in superconducting phenomena, and ordinary metal conductive relies on electron activity.

The electron active problem, reacted into the compressed metal, and there is different because the electron activity of the compressed metal is enhanced because the composition particles are compressed, and it is understood that the atomic internal particles 'void' decreases, and the distance reduces interaction force Enhanced, the electronic activity is enhanced.

However, superconducting materials are not ordinary metals, many superconductance materials do not have electrical conductivity, no conductive properties, the atoms are very strong in the binding capacity of electrons, but also simultaneously, the electron activity of compressed materials is also obtained. Enhanced. .

Thus, when the temperature drops to a certain extent, the internal inside of the atom is easier to form electron missing phenomena, so that atoms move the core price electrons, adjacent cores, all cores are neighboring a direction, so that outer electrons are formed. public.

Nuclear outer electronics is the superconducting state of the substance.

This principle sounds complicated, in fact, it can be simply understood that different material conductive states are different, and after compressed superconducting materials, it is indeed the temperature of the superconducting critical value, but how much is still Look at the experiment results.

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Before the experiment, Zhao Wei once again saw the superconducting material covering the area.

This is the main purpose of the experiment.

Of course, it is of course not to make ultra-high temperature superconducting materials, but wanted to test whether the superconducting material is compressed, whether the superconducting reaction force will be reduced.

This conclusion is very meaningful for the decline of particles absorbing energy after cracking 'spatial compression.

If the effect of superconducting and anti-weight is discovered, it demonstrates that a point-spatial absorption compression particle effect is deteriorated.

It also demonstrates examples to produce certain resistance to spatial absorption capacity.

This is like particles to resist space absorption, thereby forming a magnetic field, but the magnetic field is only an external manifestation, and the internal absorbing energy inside the compressed particles, enhancing the ability to fight space absorption, and also means that the particles are compressed, internal due to energy 'Quality change'.

What is the 'quality change' is hard to say, maybe

"Like practicing martial arts? Slowly accumulate intensity improvement, can you become a fairy after reaching a certain procedure?"

"Remind, against the sky?"

Zhao Yi is thinking about it.

Finally, the experiment started.

This experiment is basically the same as the last time, but the purpose is stronger.

The Z wave emitted by the large Z wave device has been weakened than the previous intensity. I am to detect the compressed substance, whether it is compressed under the space compression of the weakened intensity, that is, whether to test whether these materials have formed Space compression resistance.

At the same time, a large number of experimental data will be obtained, compare the data of the previous experiment, and the energy of the zaves, the magnification of the compressed space can be measured more finely, and the zave strength, spatial compression magnification, magnetic field strength, and materials. The relationship between the compressed magnification.

and many more.

Unlike the last experiment, there is no high-level group to watch this time.

This also reduces the pressure of the experimental group.

The experimental process is all smooth, release Z wave from the experiment, to a series of changes, then go to the subsequent waiting magnetic field.

With the last experience, this experiment has to be more smooth, and the least participated person is not shocked. See the process and data very calm.

On the morning of the morning, Zhao Wei entered the experiment coverage area, and the commander took the lead in taking out several superconducting materials, and quickly sent to laboratory testing.

Zhao Wei also took several people in the theory group to follow the laboratory.

The detection of superconducting materials requires a very good experimental environment, and they went to the provincial capital of 500 kilometers, to the designated material laboratory.

This is a laboratory specializing in superconducting research, and there is also a certain number of famous gangs in the international, and there is also a collaborative project with the Academy of Sciences.

The experimental work of the theoretical group also affected the normal operation of the laboratory, using the laboratory for a few days, unrelated people all spend the leave, they don't know why holiday, reach the news to know that it is necessary to experiment.

This will definitely involve confidentiality.

When entering the laboratory, everything is ready, the first thing to do is simple testing of superconducting material test, weight, state, compression magnification, etc. test.

In the manufactured ultra-low temperature environment, the theoretical group of experiments conducted several superconducting materials, and then a surprise result was obtained.

"145K! Liquid nitrogen!"

"I really can't believe that liquid nitrogen can reach 145K!"

"Copper-based materials are higher!"

"No, it is the highest, 200K, you have to test a few times, the data is not accurate."

A busy laboratory.

Because the experiments taken are very shocking, each experiment is very positive.

In the end, they conducted several tests for five superconducting materials, and obtained accurate data to achieve superconducting temperatures -

129K, 135K, 171K, 190K and 205K.

The superconducting temperature is the copper-based material.

This is not surprising.

The international research also shows that copper-based materials are more likely to achieve high temperature superconducting.

In five superconducting materials, the superconducting temperature of the copper-based material is also the highest, but the superconducting critical value of 200K is achieved, or everyone is very shocked.

Among the results of the previous international, the highest temperature superconducting material is only about 110K, and the resulting leapfrogs directly and manufactures more than 200K superconducting materials.

200k, what concept?

Simply put, it is zero decadency.

This temperature can make the superconducting material easily achieve, because in the extreme environment of the South and South, it is very easy to manufacture if the industrial demand temperature is in the extreme environment of the South and South.

For example, ordinary freezing comparisons can achieve less than 30 degrees of temperature.

Zhao Wei is very light, and the excitement of the experimenter passes, "he said calmly," this is just the beginning of the beginning, we have just started the study of Zwave, "

"The current Z wave generator, the maximum power is not high, in addition, there are too many materials in the coverage area, I believe that if the power is higher, or reduce some materials, it is easy to manufacture higher temperatures to reach the critical value. Superconducting material. "

Everyone is excited to nod.

However, some regrets are that it is not easy to increase the strength of the Z wave.

Zhao Wei did not have a good way to this, most importantly affected by the Earth's magnetic field, as long as there is a magnetic field on the earth, and the magnetic field absorbs a lot of energy.

"Maybe it should go to space to do experiments in the future? Or go to the moon and the like ..."

He thought.

The same experiment is placed in the zero magnetic field, the effect will definitely be greatly enhanced, of course, this is not practical.

Zhao Wei is still more concerned about another test, which is superconducting anti-weight performance test.

Because it is a laboratory of superconducting research, the laboratory has the device that has superconducting anti-weight, and it does not require additional formation, saving a lot of trouble.

soon.

The experimental personnel fill the device after the compressed superconducting material began the first test.

For superconductive anti-gravity testing, the experimenter is slightly puzzled because they are not clear, why do you want to be superconducting and anti-weight test.

Superconducting materials, anti-weight, what is meaningful?

Is the top of the photon weight?

impossible!

A lot of people don't understand the reason, but I will definitely know that it is not the replacement of the light, because the photons are resistant, it can be said that it is very perfect, the superconducting anti-weight does not say the effect, the cost is a big problem.

In all experiments, only Zhang Yi Can know, but it is not very clear.

In the process of preparing the experiment, Zhao Wei simply gave several people in the theory group, indicating the importance of superconducting anti-weight test.

"This experiment is related to the mystery of the particles. I said the last time. During the experiment of Z wave, most of the energy was absorbed by the particles, but the quality of the particles did not increase, even partially decreased, do you understand? "

"I believe that energy is always conserved, and in this experiment, the quality equation is obviously invalid."