The Technology Tree of Xueba

Zhou Yu looked at the results given by the artificial intelligence Xianghua, and he knew that quantum computer quantum simulation calculations can run normally.

It's just that the help of quantum computers to scientific research cannot be verified through this simple small experiment.

It must be verified through large-scale experiments, and the capabilities of quantum computers can only be summarized based on the data fed back from the experiments.

Zhou Yu looked at Xianghua and ordered: Allocate quantum computing resources to the scientists in the scientific research center.

Xianghua bowed to Zhou Yu and said, I accept the order and it is being executed.

Zhou Yu then instructed Zhang Wei: Through the situation of quantum computer-assisted scientific research, analyze the direction of quantum computer improvement in the future.

Mr. Zhou, don't worry, our laboratory will keep an eye on the operation of the quantum computer until the industrial production standard of the quantum computer is determined.

After Zhang Wei finished speaking, he began to seriously analyze the situation of quantum computers.

Zhou Yu walked out of the quantum computer laboratory, took an electromagnetic rail car, and came to the Institute of Particles.

Yu Zhenfeng, director of the Particle Research Institute, has been researching particle batteries.

He was stuck in a certain experimental step, which has been unsuccessful, so Yu Zhenfeng happened to try out quantum simulation calculations.

Zhou Yu found Yu Zhenfeng in the laboratory, and he was summing up the lessons of the experiment failure with the scientists.

Seeing Zhou Yu coming, Yu Zhenfeng said with a sad face: Mr. Zhou, this project is really difficult, please guide us.

Under your guidance, other projects have made great progress, so we can't favor one over another.

Yu Zhenfeng was selected as the manager of the research department at the very beginning. He has a high level of knowledge and management.

He feels that there is not much difference in knowledge between himself and other project leaders. Their experiments are often successful, and he has no sign of success for so long.

This is because the project he chose was relatively difficult and he could barely manage it.

But the most important point is that I didn't get Zhou Yu's guidance. Other people's successful projects were more or less taught by Zhou Yu.

Yu Zhenfeng used to be too embarrassed to ask Zhou Yu for advice, but now that Zhou Yu happened to come to the laboratory, of course he wanted him to give advice on his project.

Zhou Yu asked with a smile: I only know that your project is to study physical power storage.

It is not through electrochemical methods to convert electrical energy into chemical energy and then release it through chemical reactions.

Yu Zhenfeng immediately gave Zhou Yu a detailed introduction to the relevant information of the particle battery.

Graphene batteries use electrons to quickly shuttle on graphene single crystals to store electrons indirectly.

It is not a complete physical power storage solution, but just uses material properties to collect electrons.

Yu Zhenfeng's particle battery project uses the strong interaction force of particles to confine electrons that are about to be in a state of energy level transition and contain huge energy.

Mainly around the electrons near the nucleus, they contain a lot of energy, and the atom is not easy to lose the electrons near the nucleus.

The huge strong interaction force is generated through the nucleus to bind high-energy electrons.

When the external environment changes, this binding force weakens, releasing high-energy electrons.

This project is very difficult. It is necessary to select precise atoms, and the strong interaction force contained in the nucleus is just right.

Not too strong, and no change will make him release the electrons. It will not be too weak, and the released electrons will directly become beta rays.

After listening to Yu Zhenfeng's narration, Zhou Yu thought for a moment, grasped the most critical point and asked, Which atom do you use for the electricity storage experiment?

I use the isotope of iron atoms. Iron is a very special element. When two atoms are fused to form an element before iron, it will release a huge amount of energy.

The element after two atoms are fused into iron must absorb energy to realize it.

It is precisely because of the particularity of the iron element that I think that the nuclear strong interaction force of the iron element is special, and it is a better experimental material.

I have also conducted related experiments on other representative elements, but the effect is not as good as that of iron.

Yu Zhenfeng said helplessly that after tens of thousands of experiments, he still could not find the most correct element.

Zhou Yu shook his head and said: Iron element is simply impossible. To achieve your goal, the strong interaction force of atomic nuclei needs to be very strong.

The method of counteracting the strong interaction force is easy to realize, but it is very difficult to increase the strong interaction force.

To realize a particle battery, you need to look at the back of the periodic table, the element with a larger nucleus is more likely to realize this function.

Yu Zhenfeng widened his eyes and said in surprise: How is this possible? The massive elements at the back of the periodic table are all radioactive elements, so how could they be used to make batteries.

Radioactive elements cannot restrain protons and neutrons because the strong interaction force is not strong.

But the element we have discovered is only one isotope of it, and there are other isotopes that have not been found. If we find isotope particles with stable nuclei and no radioactivity. Your project will be successful.

This was difficult before, but with the development of quantum computers, it has become very simple.

While Zhou Yu was speaking, he began to connect to the quantum computer through the company's internal neutrino communication network.

Yu Zhenfeng was very frustrated when he heard Zhou Yu's opinion, and he heard that quantum computers could easily complete this project, and his eyes were mixed with disbelief.

How can a quantum computer, a dead thing, solve this problem quickly with a scientific research team of hundreds of people and a project that has taken several months without any progress.

Zhou Yu assigned tasks to the artificial intelligence Xianghua through Xingling glasses, and asked her to start quantum simulation computing.

Seeing Yu Zhenfeng's tangled expression, Zhou Yu reminded: The artificial intelligence Xianghua is ready to start the quantum computer's quantum simulation calculation function.

You only need to submit the particle battery requirements and the data of previous experiments to Xianghua, and she can greatly shorten the calculation time of this project.

Yu Zhenfeng immediately authorized the artificial intelligence Xianghua to read the experimental data on the server.

After Xianghua obtained the information, he started quantum simulation calculations and prepared to develop particle batteries.

Zhou Yu also looked at Xianghua nervously, waiting for the final result.

This is the first time that the quantum simulation computing function of a quantum computer is used in scientific and technological research and development, and Zhou Yu does not know whether it will be successful.

He can only try his best to provide detailed data to increase the success rate of quantum simulation calculations.

Zhou Yu and Yu Zhenfeng discussed the development of the Institute of Particles, while waiting for Xianghua to give the results of quantum simulation calculations.

Two hours later, Xianghua reappeared in front of Zhou Yu.

Master, I have completed the particle battery project.

It is in the discharge state, and the strong nuclear interaction force is suppressed.

The electrons in the outermost layer of the atom will swim away, and the electrons in the inner layer of the atom will release energy to the electrons in the outer layer to keep it in its original orbit.

It is in a charged state and will not inhibit the strong interaction force of the atomic nucleus. The atomic nucleus begins to capture the surrounding free electrons to form a stable atomic nucleus.

After the stable nucleus is formed, the outer electrons of the nucleus will devour the energy of the free electrons and gradually transfer energy to the inner electrons.

After the energy is saturated, the electron will no longer absorb external energy.

The particle I calculated is the isotope of the 115th element ferium.

When Yu Zhenfeng saw the result given by the artificial intelligence Xianghua, his eyes widened in disbelief.