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Zhou Yu looked at the results given by the artificial intelligence Xianghua. He knew that quantum computer quantum simulation calculations could work normally.

It's just that the quantum computer's help to scientific research cannot be verified by this simple small experiment.

The ability of a quantum computer must be summarized through large-scale experimental verification and based on experimental feedback data.

Zhou Yu looked at Xianghua and said, "Allocate quantum computing resources to scientists in scientific research centers."

Xianghua bowed to Zhou Yu: "Accept the order, it is being executed."

Zhou Yu also commanded Zhang Wei: "Through the situation of quantum computer-assisted scientific research, analyze the future improvement of quantum computers."

"Zhou please rest assured that our laboratory will always keep an eye on the operation of the quantum computer until the industry standard for quantum computer industry is determined."

After Zhang Wei said, he began to analyze the situation of quantum computers carefully.

Zhou Yu walked out of the quantum computer laboratory and took an electromagnetic railcar to the Particle Research Institute.

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

He was stuck in a certain experimental step, and has never been successful, just to allow Zhenfeng to experiment with quantum simulation calculations.

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

Seeing Zhou Yu's arrival, Yu Zhenfeng said sadly: "General Zhou, this project is really difficult, please give us guidance.

Other projects have made great progress under your guidance. "

Yu Zhenfeng was initially selected as the manager of the research department. His knowledge reserve and management level are very high.

He felt that there was not much difference in knowledge between him and other project leaders. Their experiments were often successful, and he had no sign of success for such a long time.

This is because the project he chooses is difficult, and he can only manage it.

But the most important point is that he did not get Zhou Yu's guidance. Other people's successful projects were more or less pointed by Zhou Yu.

Yu Zhenfeng could not pull his face and asked Zhou Yu for guidance. Now Zhou Yu happens to be in the laboratory, of course, he has to give some pointers to his project.

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

Instead of electrochemical methods, electrical energy is converted into chemical energy, which is then released through chemical reactions. "

Yu Zhenfeng immediately introduced detailed information about particle batteries to Zhou Yu.

Graphene batteries use electrons to quickly shuttle through graphene single crystals, indirectly storing electrons.

It is not a complete physical power storage solution, it is just a collection of electrons using material properties.

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

The electrons are mainly around the nucleus. They contain a lot of energy, and it is not easy for the atoms to lose the electrons near the nucleus.

A large and strong interaction force is generated by the nucleus, binding high-energy electrons.

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

This project has many difficulties. It is necessary to choose precise atoms. The strong interaction force contained in the nucleus is just right.

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

After listening to Yu Zhenfeng's remarks, Zhou Yu thought for a moment, seized the most critical point and asked: "What kind of atom do you use for electricity storage experiments."

"I use the isotope of the iron atom. The element of iron is very special. If two atoms are fused into elements before iron, it will release huge energy.

After two atoms fuse into iron, they must absorb energy to achieve it.

It is precisely because of the special nature of iron that I think that the strong interaction of the nucleus of iron is a special experimental material.

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

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

Zhou Yu shook his head and said, "Iron is simply impossible. To achieve your purpose, the strong interaction of the nucleus needs to be very strong.

The method of canceling the strong interaction force is easy to implement, and it is very difficult to increase the strong interaction force.

To realize a particle battery, you need to look behind the periodic table of elements. The larger the element, the more likely it is to achieve this function. "

Yu Zhenfeng's eyes widened and he was surprised and said, "How can this be, the large mass elements behind the periodic table are all radioactive elements, how can it be used for batteries."

"Radioactive elements have strong interactions and are not strong enough to restrain protons and neutrons.

But the element we found is just one of its isotopes. There are other isotopes that are not found. If the nucleus is found stable, it does not have radioactive isotopes. You can succeed in this project.

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

As Zhou Yu spoke, he began to connect to quantum computers through the company's internal neutrino communication network.

Yu Zhenfeng was very frustrated to hear Zhou Yu's opinions. He also heard that quantum computers can easily complete this project, and his eyes were mixed with incredible.

Hundreds of people's scientific research team, a project that has not progressed in the least months for a few months, how can a quantum computer be a dead thing to quickly solve this problem.

Zhou Yu reads books through Xing Ling glasses, UU www. uukanshu.com arranged the task for the artificial intelligence Xianghua and prepared her to start quantum simulation calculations.

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

You only need to submit the requirements of the particle battery and the data of previous experiments to Xianghua, and she can greatly reduce 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 in his heart, waiting for the final result to appear.

This is the first time that the quantum computing function of a quantum computer has been used in scientific research and development. Zhou Yu does not know if it will succeed.

He can only do 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 Particle Research Institute, 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 interaction force of the nucleus is suppressed.

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

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

After the formation of a stable nucleus, the outer electrons of the nucleus will swallow the energy of the free electrons and gradually transfer the energy to the inner electrons.

After the energy is saturated, the electrons will not absorb external energy.

The particle I calculated is the isotope of element 115, plutonium. "

When Yu Zhenfeng saw the result given by the artificial intelligence Xianghua, he eyes widened incredibly.Yu Zhenfeng carefully read the particle battery data given by the artificial intelligence Xianghua.

The particle battery is composed of an isotope of artificial element No. 115.

This plutonium element perfectly fits the various characteristics of particle batteries.

The artificial element plutonium decays within one second of being generated. It is a radioactive element, but the isotope that makes up a particle battery has a strong interaction with the nucleus.

This strength of force confines the protons and neutrons in the nucleus just right, it will not decay, and it will no longer be radioactive.

The half-life of plutonium atoms is very long, reaching 100 billion years, and it can be said to be almost stable.

The strong interaction force of plutonium atoms has a very short range of action and is also easily affected by the external environment. This is why it is easy to gain and lose electrons.

After Yu Zhenfeng looked at the properties of plutonium atoms, he turned to the properties of particle batteries.

The particle battery is composed of plutonium element, which also inherits the characteristics of plutonium element, because the outer electron energy level change of plutonium atom is very strange, and plutonium atom basically does not react with any substance.

A cubic centimeter particle battery, about the size of a quail egg, can store electricity at 50 degrees. You need to know that a normal household with complete appliances consumes about 200 degrees of electricity a month.

One cubic decimeter is almost the size of a normal electric vehicle battery, and it can store 50,000 kilowatt-hours of electricity, and one cubic meter can store 50 million kilowatts of electricity.

This is a huge amount of stored electricity. The distance between Yanjing and Shanghai is only over 1,000 kilometers. The Fuxing high-speed rail runs at a speed of 350 kilometers per hour. It only takes more than 40,000 kilowatts of electricity from Yanjing to Shanghai.

After the industrial production of particle batteries, high-speed rail and other equipment do not need power lines at all, and only need a small battery to operate for a long time.

Seeing the performance of the particle battery, Yu Zhenfeng said with shock: "I can't believe that the particle battery can store so much power.

It has abandoned milliamp hours and has directly used kilowatt hours as a unit of measurement for electricity storage. "

Zhou Yu did not expect that the particle battery could store so much power, which was really beyond its imagination.

The density of the energy stored by the particle battery is too high, and it can be used to make most of the energy supply equipment.

"Particulate batteries can store too much power, far more than other types of batteries. It is really a big fat man in the battery world.

The emergence of particle batteries can solve the problem of neutrino capture modulator power supply, and neutrino communication satellites are no longer out of reach. Zhou Yu said with surprise.

Yu Zhenfeng looked at Zhou Yu and shook his head: "The particle battery just gave me the goal of hard work. It is now the moon in the mirror. We can see it far, but we can't get it.

The quantum computer is also very powerful. She can give us the right direction for scientific research. She knows that the isotope of element 115, plutonium, is the most basic element constituting particle batteries, and we have also made efforts.

When we synthesize this element of plutonium, it will be the time for particle batteries to solve the problem. "

"You don't know anything about the capabilities of quantum simulation computing, and you underestimate the significance of this function.

If it only gives the direction of scientific research, what is the difference between this function and Mozi, why should we invest so much resources in the development of quantum computers. "

After Zhou Yu said, he started to operate the artificial intelligence Xianghua and found the derivation process of the particle battery.

Sure enough, he found that in the derivation process, a synthetic method of plutonium was found.

This is why the quantum computer takes a long time to perform calculations. It must make up for all the prerequisites of this technology.

Zhou Yu showed the method of synthesizing thorium element to Yu Zhenfeng. Yu Zhenfeng is no stranger to this technology. Even the Spark Research Particle Research Institute is trying to make new elements.

Yu Zhenfeng watched the method of synthesizing plutonium element carefully. He was relieved and said doubtfully: "If plutonium element can be produced, see who said that the spiral particle accelerator is a waste.

It cost hundreds of billions of yuan, but no results were produced.

I will now go to the laboratory to do experiments to see if the information speculated by the quantum computer is correct. "

Yu Zhenfeng's expression is very easy, and the method of synthesizing tritium element, they can do it in the laboratory.

It is only necessary to use high-speed particle acceleration equipment to allow calcium and thorium atoms to bombard each other. As long as the isotopes of the calcium and thorium atoms are selected, it is possible to artificially produce thallium.

The plutonium element they need will exist forever, and the other plutonium isotope will decay in less than a second and disappear completely in reality.

Yu Zhenfeng took the artificial element synthesis path derived from artificial intelligence Xianghua and went to the laboratory to try to make the element.

On March 29th, after thousands of collision experiments and timely adjustment of the parameters of the equipment, Yu Zhenfeng finally produced a plutonium element that can exist forever.

He created the plutonium element by himself and admired the powerful power of quantum computers, and there was still a little fear in his heart.

Quantum computers know scientific research better than him, and they must enrich themselves and get more results, or they will be surpassed by artificial intelligence.

On April 6, Yu Zhenfeng led the scientists to produce a particle battery with a size of one cubic meter according to the technical standard given by the artificial intelligence Xianghua, UU reading www.uukanshu.com.

Zhou Yu received information from Yu Zhenfeng that their laboratory has produced a particle battery.

He immediately rushed to the scientific research center. After more than ten days of development, scientists have accepted the powerful functions of quantum computer quantum simulation computing.

They solved the problem that has troubled them for a long time through artificial intelligence Xianghua, and the quantum computer began to gain fame among the scientist community.

More scientists are beginning to admire Zhou Yu's foresight and have already deployed quantum computers early.

Zhou Yu and Yu Zhenfeng are surrounded by a cubic meter of silver-white object.

Yu Zhenfeng said with emotion: "It is really a big fat man in the battery industry. The artificial intelligence Xianghua predicts very accurately. It is only a cubic meter of particle battery.

The particle battery discharges very quickly, it can discharge all the electric energy in one second.

Particle batteries must be charged with a large-capacity capacitor, which must be charged once.

The characteristics of the plutonium element of the particle battery determine that it can be discharged slowly, but the charging process must be completed at one time.

It is precisely because of the characteristics of particle batteries that the development of particle batteries is limited. We now have superconducting materials that can make supercapacitors.

But supercapacitors are very expensive, and the cost of particle batteries is very expensive. The cost of a cubic meter of particle batteries is 10 billion yuan.

As long as the material does not break through, it can only be used in high-end environments.

I calculated the price of industrial production in the future. If calculated based on the laboratory cost, the cost of one cubic meter of particle batteries has exceeded 50 billion. "

Zhou Yu had long anticipated this situation, and he was mentally prepared when he saw the element of plutonium.

Man-made elements are extremely difficult to synthesize, not to mention the permanent existence of man-made elements. The high price is an inevitable result.