Homo sapiens.

Chapter 655 Unable to Mass Production
Ye Feifei became more and more excited. He called up the supercomputing system, input a large amount of data, and began to verify his ideas.

More than half an hour later, he looked at the holographic simulation model in front of him with a smile on his face: "So it is! So it is!"

In the holographic screen, a simulated neutron is appearing in front of everyone.

This is an antineutron composed of proton + electron + neutrino.

As long as the antineutron and positon neutron are close together, the two will combine together, and the nuclear force source of the combination is neutrino and antineutrino.

Neutrons and antineutrons are different from protons and antiprotons by their own characteristics. They do not react well with each other, but maintain a fragile stability.

As for why the antineutrons in the universe are very rare, the reason is caused by the non-conservation of parity.

Antineutrinos in the universe occupy the vast majority, while positive neutrinos are very few.

This is similar to the case of electrons and positrons.

Therefore, there are many neutrons in the universe, but very few antineutrons.

In this experiment, by accident, some positive neutrinos were created, and at the same time, a large number of electrons and protons were encountered, and several antineutrons were inadvertently synthesized, and then these antineutrinos and neutrons Combined together, a special double-neutron nucleus is formed.

Although this is something synthesized by accident, Ye Feifan and others understand that this may be one of the keys to the second-level civilization.

After all, the neutron degenerate material is the real cosmic material. This thing can not only try the extremely terrifying magnetic field, but also its strength exceeds the general element composition.

Think about the existence of neutron stars, you will know the horror of neutron degenerate materials.

Dr. Yuri was also taken aback by this unexpected joy. While dispatching more manpower to Ye Feifan, he asked the Mars star ring system to experiment again.

The energy level of the third collision experiment was exactly the same as the second one, but the monitoring system and precision instruments near the Jensen crater more than doubled.

This time the impact experiment still only persisted for 112 seconds, and the time accurately monitored during the period was only about 0.58 seconds.

However, this time, the special double-neutron nucleus appeared again, and 5 signal points also appeared.

After the impact, a large number of robots quickly entered the field, and according to the positioning of the magnetic field detector, they quickly found 3 double neutron nuclei.

With 4 dineutron nuclei and a general understanding of how to produce this dineutron matter, Ye Feifan's team began to study the physical properties of this dineutron matter.

Inside a specially protected laboratory.

Ye Feifan looked at the double neutron matter floating in mid-air in the superconducting magnetic field, which could almost rely on its own magnetic field.

His expression became more and more excited: "The magnetic field of this thing is too strong. Only about one kilogram of dineutron matter can generate a magnetic field equivalent to 50 tons of silver-based superconductors..."

Ruan Zhixiong was also very excited. He knows that the current superconductor materials of Homo sapiens can only be stacked continuously to increase the magnetic field strength, which leads to the huge mass and volume of those large ultra-strong magnetic field devices.

However, if it is replaced with a double-neutron material, the weight of the double-neutron material is only about [-]/[-] that of a silver-based superconductor for the same magnetic field.

Moreover, the dual-neutron material has an even more powerful characteristic, that is, it is extremely resistant to high temperatures. Even in the high temperature of several thousand degrees Celsius, the magnetic field characteristics of the dual-neutron material can still be maintained.

However, Ye Feifei quickly smiled wryly again: "The manufacture of this thing is too difficult. Only a few double neutrons are produced in one collision experiment of the Mars star ring system. If the production speed is used at this rate, it will take enough one kilogram. Wait until the universe returns to its origin."

Others are also very helpless.

Double neutron materials are good things, but their output is calculated in [-], obviously this does not have the value of application.

Ruan Zhixiong was not downcast, he smiled and patted Ye Feifan on the shoulder: "Fan Fei, this is just the beginning, just like the early days when human beings just knew about rare elements, it was very difficult to extract a little rare element."

"But now that our technology has improved, the difficulty of mining rare metals has plummeted. I believe that one day in the future, the company will be able to solve the problem of mass production of dual-neutron materials."

Hearing this, Ye Feifan has also adjusted his mentality. After all, double neutron materials are still in their infancy, and there is still a long time to come!
"Zhixiong is still open to you, thank you!"

"Don't be hypocritical, our work is not over yet. Although there is no way to synthesize it on a large scale, we must at least figure out the physical properties of double neutron materials."

"Well, go ahead!"

Ye Feifan's team continued to study double-neutron materials.

On Dr. Yuri's side, according to the physical characteristics of double neutrons researched by Ye Feifan's team, the experimental plan was adjusted again.

After bombing the Mars star ring system for more than 2000 times, the output of double neutrons was increased from a few each time before to about 3000-[-] each time.

Although the output has increased by nearly a thousand times, but this thing is not enough to be used as an experimental sample, let alone practical application.

If the one-time output is very large, the omnic civilization will not gain nothing in the critical point collision experiment.

It is also because of the instantaneous communication of the magnetic monopolar crystal and the precision of the magnetic field detector that Homo sapiens can detect the existence of the double neutron material under the circumstances of accidents.

In scientific research, sometimes luck really matters.

After more than half a year of research and experimentation.

Many physical properties of double-neutron materials have also been figured out by Ye Feifan's team.

This thing is actually in a semi-stable state, and its half-life is about 92 days. Once it decays, the double neutron will become a hydrogen element composed of a neutron and a proton, and release a positive neutrino at the same time.

It can release a super strong magnetic field. It is not charged, has no outer electrons, and is simply a quasi-nucleus. Therefore, the density of this thing is extremely high. It cannot be stored in ordinary containers, and can only be stored with a magnetic field restraint device.

Double neutrons can be combined with double neutrons through protons to form a super-strong supernuclear structure. The density of this thing is extremely high, and its hardness, strength, and heat resistance surpass all currently known materials.

Unless high-speed high-energy neutrons and high-speed high-energy protons are used to hit the double-neutron material, other means cannot destroy the structure of the double-neutron material.

Even the high-energy neutrons produced during nuclear fusion have no way of penetrating or disintegrating a double-neutron material.

If it weren't for the low production capacity of dual-neutron materials, Homo sapiens plans to use this thing to improve the controllable nuclear fusion power generation system.

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(End of this chapter)