The Technology Tree of Xueba

On August 20, Zhou Yu received information from Zhao Zhao, the head of the Neutrino Laboratory, for technical support.

When a scientist releases this information, he encounters a problem that cannot be solved temporarily, and needs to rely on the knowledge of other scientists to solve this problem.

Few people are able to research across lines and ask others for help. As long as they are not named, they usually turn to Zhou Yu for help.

Zhou Yu's talents created by Xinghuo Technology are flexible in head and good at solving problems, or have a little understanding of any subject.

It gives people a very comprehensive knowledge, but they are not too superb. Once they encounter difficulties, they can use the huge knowledge reserve to give scientists unexpected suggestions.

It is also because Zhou Yu has this ability that he can calm these rampant scientists and manage them as the director of the Scientific and Technical Committee.

Otherwise, he is only the boss who provides the funds, and scientists only use it as an ATM, which will respect him, but will not respect him.

Zhou Yu went to the scientific research center to check the problems encountered in neutrino communication.

He came to the Neutrino Communication Lab and found that Professor Zhao Zhao frowned in front of a huge box.

Professor Zhao Zhao's eyes were flushed and his face looked very tired. This look was formed by staying up all night long.

Zhou Yu comforted: "Scientific research is a long-term job. Our company does not advocate short-term research and wants to quickly develop technology.

This method is not scientific at all. A mature technology is that the foundation of each aspect has been laid down, rather than wanting to be inspired by scientists. "

Zhao Zhao smiled bitterly: "I can't do anything about it. I'm too anxious during this time.

Cooperating companies such as ZTE and Huawei have completed their technical standards, and Neutrino Communication has completed 99. Only these two technologies can be formally verified.

Can't let our company hold back the project, I thought I could solve the problem quickly.

The result was a few months of research and development. I worked with Mozi to come up with more than 00 solutions, none of which could solve the problems encountered. "

Zhou Yu also understood Professor Zhao Zhao's anxiety, or that he was too smooth and did not encounter setbacks.

He also believed too much about Mozi's ability. To know that some of Mozi's proposals were not calculated by artificial intelligence, but the technology Zhou Yu saw through the technology tree, secretly stuffed into Mozi's program.

This is also an important reason why Zhou Yu has been slow to let others master the source code of artificial intelligence.

Even the company's main executives have stood the test of time and can be trusted.

Once someone has mastered the artificial intelligence source code, his secrets will be revealed.

It seems that in the future, we still need to strengthen the ability of scientists to build up their psychology, especially some scientists who haven't encountered any setbacks.

Let them taste the taste of failure and increase their ability to resist setbacks. Don't have a glass of heart that affects the performance of their own technology.

"Professor Zhao, what problems are you encountering? I also have some research on neutrino communication. Maybe I can think of directions you haven't thought of and try to solve these problems." Zhou Yu asked Zhao Zhao.

Zhao Zhao sighed and explained to Zhou Yu the problems encountered in neutrino communication.

The problems they encountered were related to the core component of neutrino communication, the neutrino capture modulator.

The first question is that the neutrino capture modulator requires huge energy to operate, up to 10,000 kWh per day, which is nothing on the ground? But in space, that is a very difficult problem.

Zhao Zhao's path is nothing more than making the neutrino capture modulator consume less energy or allowing it to operate on the ground.

The first idea is simply impossible. Neutrinos are light particles that hardly react with any substance and cannot be affected by electromagnetic forces.

It is necessary for superheavy particles to capture neutrinos in space with weak interactions.

To maintain the existence of super-heavy particles, huge electrical energy is required, and the energy that exceeds the limit must be maintained in order to maintain such accidentally found artificial super-heavy particles.

If the power to the neutrino capture modulator is reduced, then there is no way to maintain the presence of overweight particles.

This is almost stuck in a paradox, and the problem of the neutrino capture modulator cannot be solved by this idea.

The second idea is to place the neutrino capture modulator on the ground, which is also a less feasible approach.

Neutrino transmission is not like electromagnetic waves. Electromagnetic waves are like light, although they travel in straight lines.

However, due to the different air density in the atmosphere, it is also divided into different levels such as the ionosphere and stratosphere.

There are three types of radio wave propagation, direct waves, ground waves, and sky waves. Usually, direct waves are used to propagate television signals, and sky waves and ground waves are used to propagate sound signals of radio broadcasting stations.

Even if it is a direct wave, it can also be refracted and reflected in the atmosphere. It can basically propagate along the atmosphere, but the propagation distance is slightly shorter.

A set of electromagnetic wave signals was sent in Huaxia, and the receiving end in Los Angeles, USA must be able to receive it.

Instead of launching directly into space along the tangent of the Earth's curve.

This is not the case for neutrino communication, because it does not refract and reflect in the atmosphere, it directly penetrates the atmosphere.

Neutrino communication travels straight along the tangent line of the earth's surface to both sides.

Not to mention the atmosphere, the earth can be penetrated directly.

It is just that the signal penetrating the earth has become the scattered neutrino signal through the influence of the earth's nucleus, which cannot be used to transmit accurate information.

In this way, unless the distance is relatively short, or the base station is placed on the ground, the neutrino signal cannot be received at a distance.

Neutrino capture modulators cannot be arranged at random like cell phone signal base stations.

One is that the cost of doing so is too high and a huge amount of power is wasted. Even the three major operators together cannot afford such a huge amount of consumption.

One minute's call costs 1 million directly, and no one can afford such an expensive phone.

The other is to waste the performance of the neutrino communication network. It has the ability to propagate over long distances. As long as it is placed in the air, it can avoid the impact of the earth's surface.

The second problem encountered in neutrino communication.

The neutrino communication base station not only transmits neutrino signals, it also receives neutrino signals.

Although Zhao Zhao researched the neutrino capture debugger specifically for transmitting signals and the neutrino receiver specifically for receiving signals.

However, in a place where the relative scale is not large, the two devices will cause mutual interference.

For example, the neutrino capture modulator will receive the neutrino signal that has been modulated and ready to be received by the neutrino receiver.

After mutual interference, UU reads www.uukanshu. Com will cause distortion of the neutrino signal and affect the accuracy of neutrino communication.

After listening to Professor Zhao Zhao's remarks, Zhou Yu immediately understood the problem of neutrino communication. The core problem was that Professor Zhao Zhao still did not understand the operation principle of the neutrino capture modulator.

Because the neutrino capture modulator was Zhou Yu's eagerness for success, he directly plugged it into Mozi, allowing Professor Zhao Zhao to make it directly in an unexpected situation.

He knows it now, and he doesn't know why, of course, he will be confused.

But Professor Zhao is also very talented in neutrino communication. In addition to this core device, he has developed a complete set of auxiliary equipment to match it.

Zhou Yu immediately went into a state of contemplation. He went to the technology tree to check the details of the neutrino capture modulator.

The neutrino capture modulator information given on the technology tree is more complicated and should allow him to come up with specific solutions.

"I want to be quiet, I already have a general inspiration." Zhou Yu smiled.