The Technology Tree of Xueba

Yu Zhenfeng carefully read the particle battery data given by AI Xianghua.

Particle batteries consist of an isotope of the man-made element 115, ferium.

This ferric element is perfectly suited to the various properties of particle batteries.

The man-made element proton decays within a second of being created. It is a radioactive element, but the isotope that makes up the particle battery, the strong interaction force of the nucleus is very strong.

The force of this intensity is just right to confine the protons and neutrons in the nucleus, so that they cannot decay and are no longer radioactive.

The half-life of the atom is very long, as long as 100 billion years, and it can almost be said to exist stably.

The range of the strong interaction force of the atom is extremely short, and it is also easily affected by the external environment, which is why it is easy to gain and lose electrons.

Yu Zhenfeng looked at the characteristics of the atomic atom, and he looked at the characteristics of the particle battery.

The particle battery is composed of feronium elements, and also inherits the characteristics of feronium elements, because the energy levels of the outer electrons of the feronium atoms are very strange, and the feronium atoms basically do not react with any substance.

A particle battery of one cubic centimeter, about the size of a quail egg, can store electricity at fifty degrees. We must know that a normal family with complete electrical appliances consumes about 200 degrees of electricity a month.

One cubic decimeter, which is almost the size of a normal electric vehicle battery, can store 50,000 kWh of electricity, and one cubic meter can store 50 million kWh of electricity.

This is a very large amount of stored electricity. The distance between Yanjing and Shanghai is only over 1,000 kilometers. The Fuxing High-speed Railway travels at a speed of 350 kilometers per hour. It only needs more than 40,000 kilowatt-hours of electricity from Yanjing to Shanghai.

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

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

It has already abandoned milliampere hours and directly used kilowatt-hours as the unit of measurement for power storage.

Zhou Yu didn't expect that the particle battery could store so much electrical energy, which was really beyond his imagination.

The density of energy stored in particle batteries is so high that it can be used for most of the energy supply equipment.

Particle batteries can store so much energy that they are far superior to other types of batteries. It's really the big fat guy in the battery world.

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

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

The quantum computer is also very powerful. She was able to pinpoint the direction of scientific research for us. Knowing the isotope of element No. 115, Fe, which is the most basic element of particle batteries, we also have a direction for our efforts.

When we synthesize this element, it will be time for particle batteries to tackle key problems.

You don't know anything about the function 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 finished speaking, he began to operate the artificial intelligence Xianghua to find the derivation process of the particle battery.

Sure enough, as he expected, he found a synthesis method for the elemental element in the derivation process.

This is also the reason why quantum computers need a long time to calculate, and it must make up all the preconditions of this technology.

Zhou Yu showed Yu Zhenfeng the method of synthesizing elemental elements. Yu Zhenfeng is no stranger to this technology. Even the Xinghuo Technology Particle Research Institute is also trying to create new elements.

Yu Zhenfeng carefully observed the method of synthesizing feronium elements, he breathed a sigh of relief, and said dubiously: If it is really possible to manufacture feronium elements, who will say that the helical particle accelerator is a waste.

Hundreds of billions of dollars were spent, but nothing was produced.

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

Yu Zhenfeng's expression was very relaxed. The method of synthesizing the elemental element can be done in their laboratory.

Only need to use high-speed particle acceleration equipment to let calcium atoms and americium atoms bombard each other, as long as the isotopes of calcium atoms and americium atoms are selected, it is possible to artificially produce americium.

The feronic elements they need will exist forever, and other ferric element isotopes will complete decay in less than a second and completely disappear in reality.

Yu Zhenfeng took the synthesis path of ferric elements deduced by artificial intelligence Xianghua, and went to the laboratory to try to make ferric elements.

On March 29, after thousands of collision experiments and adjusting the parameters of the equipment in time, Yu Zhenfeng finally produced the monium element that can exist permanently.

He made the elemental element by himself, so he admired the powerful capabilities of the quantum computer, and there was still a trace of imperceptible fear in his heart.

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

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

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 calculation.

They used artificial intelligence Xianghua to solve problems that had troubled them for a long time, and quantum computers began to gain fame among scientists.

More scientists began to admire Zhou Yu's foresight and foresight, and he had already deployed quantum computers early on.

Zhou Yu and Yu Zhenfeng gathered in front of a silver-white object with a size of one cubic meter.

Yu Zhenfeng introduced with emotion: It is really a big fat man in the battery industry. The artificial intelligence Xianghua predicts it very accurately. It is only a particle battery the size of one cubic meter, and its stored power is as high as 50 million degrees.

The particle battery discharges very quickly, and it can discharge all its electrical energy in one second.

Particle battery charging must use a large-capacity capacitor to charge it once.

The characteristics of the ferric element in 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 this characteristic of particle batteries that the development of particle batteries is limited. We now have superconducting materials that can be used to make supercapacitors.

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

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

What I calculate is the price of industrial production in the future. If calculated according to the laboratory cost, the cost of a cubic meter of particle batteries has exceeded 50 billion.

Zhou Yu had expected this situation a long time ago, and he was mentally prepared when he saw the Mo element.

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