The Technology Tree of Xueba

Zhou Yu is satisfied with the research and development of the airship, and he sees the efforts of these scientific research assistants, even if there is no technological innovation.

They can learn and use it flexibly, use the Spark technology and the mature technology in the society to create an airship that can be used in the adjacent space, which is considered to have exceeded the task.

With a breakthrough in the delivery vehicle, Zhou Yu is concerned about the progress of the miniaturization of the neutrino communication base station.

The maximum load of an airship near space is 500 tons. The neutrino communication base station tested in the laboratory must have tens of thousands of tons, and the base station occupies a large space.

Zhao Zhao can give Wang Jin a 1:1 model of the neutrino communication base station, he should have a well-thought-out idea of ​​what the neutrino communication base station will become.

Zhou Yu did not inquire about Zhao Zhao's research and development progress through the Internet, he went directly to the neutrino communication laboratory of the Electromagnetic Research Institute.

Check the specific progress of the neutrino communication base station. Only when the neutrino communication is officially in operation can the powerful effects of artificial intelligence and the virtual world be exerted.

The preparations made by Xinghuo Technology are not in vain.

Zhou Yu walked into the laboratory and saw researchers and scientific research assistants conducting experiments in a hurry.

Zhao Zhao was wearing VR smart glasses and didn't know what difficult problem to deal with, and the expression on his face was changing rapidly.

He immediately took off the VR smart glasses, smiled at Zhou Yu and said, Mr. Zhou, you are here, you must be concerned about the neutrino communication base station miniaturization project.

Seeing Zhou Yu's expression on Zhou Yu's face, Zhao Zhao sighed and said, The miniaturization process of neutrino communication base stations is really difficult.

But most of the problems are not difficult for me. Now the miniaturization process of neutrino communication base stations has reached 90%.

When Zhou Yu heard the exact news, he nodded in satisfaction and asked, Professor Zhao, the miniaturization of neutrino communication base stations has reached 90% progress.

I think you should design the effect of the neutrino communication base station after completion, whether the effect of the base station will be strengthened or weakened.

This issue is very important to Xinghuo Technology. The task assigned by Zhou Yu, the relevant requirements he put forward are based on the standard of neutrino communication.

The neutrino communication is strengthened, and all work is carried out as usual. If the neutrino communication is weakened, the relevant arrangements can only be improved.

Mr. Zhou, after the integration of the neutrino communication base station, how could it be weakened? Of course its performance has been enhanced.

Under the condition that the coverage of the neutrino communication base station remains unchanged, the signal of the new base station is more stable, and more data can come out.

The neutrino communication base station is miniaturized, and each device is modularized.

It can make the module run more stably, and the system can quickly detect the safety situation of the module.

Once a module fails, the module can be replaced quickly.

In addition to the modular transformation of the neutrino communication base station, some equipment has also been rearranged.

Excluding the mutual interference of certain devices, the layout of the neutrino communication base station is more reasonable.

The most important thing is that the industrial production of neutrino communication base stations is convenient, and most of our parts are common.

The factory can assemble a neutrino communication base station as long as it produces a small variety of parts.

The new neutrino communication base station covers an area of ​​about 10 square meters and has a total weight of 413 tons. The airship in the near space can carry it to stay in the near space for a long time.

Zhao Zhao introduced the miniaturization of neutrino communication base stations.

After Zhou Yu listened to Zhao Zhao's introduction, he felt relieved about the miniaturization project of the neutrino communication base station.

The neutrino communication base station looks like it will be successful soon, and he is also urging other project teams.

In the trial operation stage of neutrino communication, the foundation was laid by combining software and hardware to avoid being overtaken by other companies.

It seems that your neutrino communication base station will be successful soon, and the company's allotment and bonus rewards will be perfectly cashed out, and you can also enjoy the profit dividend of neutrino communication. Zhou Yu praised with some anticipation.

Zhao Zhao looked a little embarrassed, and said helplessly: Mr. Zhou, you are still a little optimistic now. We have encountered two extremely difficult problems in the process of miniaturizing the neutrino communication base station.

If this problem is not solved, the miniaturization of neutrino communication base stations will take a long time to complete.

Two more problems! Zhou Yu asked in surprise.

When Zhao Zhao was researching neutrino communication, he did not know much about neutrino capture modulators, so he encountered two difficult problems.

If it wasn't for Zhou Yu's ingenious solution, the neutrino communication would not be completed so quickly, and it would take at least several years for a breakthrough.

Zhao Zhao spread his hands and said helplessly: I have no choice. I can solve other problems. This problem is a problem with the equipment. I really have no way to solve it.

He began to explain two difficulties he encountered.

The first difficulty is the power supply problem. The miniaturization of neutrino communication base stations is mainly aimed at auxiliary equipment.

The spherical neutrino capture modulator with a diameter of 5 meters has not changed, and it still needs to supply 10,000 kWh of electricity every day.

The near-space airship is at an altitude of 100 kilometers above the ground.

Using a standard 220-volt power supply system, even with the owner's very small silver wire, the resistance of the wire as long as 100 kilometers is very large.

Not only does the energy loss reach 70%, but it also releases a lot of heat, which may directly melt the wire.

Only the method of high-voltage transmission can be used. According to the electrical formula, the greater the voltage, the smaller the current. The smaller the current, the smaller the heat loss generated by the conductor, which can ensure the normal power supply and the safety of the wire.

100,000 volts of high-voltage transmission can solve this problem.

But with this method, a set of ultra-high voltage transformers must be arranged for the neutrino communication base station.

This set of ultra-high-voltage transformers is larger than the neutrino communication base station in our experiment, and it is impossible to transport it to adjacent space by airship.

This problem has reached an impasse, and there is no way to solve it now.

The second problem is that after the miniaturization of the neutrino communication base station, the integration of each device is very high, and a huge amount of electric energy is running on the device. Each component accumulates a little heat, and the entire module accumulates a very large amount of heat.

The neutrino communication base station has no extra space to arrange a cooling system.

While the device generates heat, it also generates some complex electromagnetic signals.

Electromagnetic signals emitted at high altitudes can easily affect aircraft and other aircraft, and must also find a way to shield them.

When Zhou Yu heard these two questions, he smiled and said in a relaxed tone: These two questions are actually one question, that is, the conductor has resistance.

Professor Zhao's problems are easy to solve, you don't know it yet!

Director Ma Shangshu is developing room-temperature superconducting materials, and great progress has been made.

As long as room temperature superconducting materials are successful, your two problems will be solved.

When Zhao Zhao heard Zhou Yu's words, he stood up excitedly.

Director Ma is actually researching room-temperature superconducting materials. I have been focusing on the neutrino communication base station, and I have not noticed the movement of the research institute.

If there is a room temperature superconducting material, the neutrino communication base station can be further optimized to improve its effect and reduce its energy consumption and volume.

Director Zhao, you should re-optimize the neutrino communication base station according to the characteristics of room temperature superconducting materials. Zhou Yu got up and explained.

Neutrino communication base stations do not have room temperature superconducting materials, so they certainly cannot solve the current problems.

Zhou Yu directly asked Zhao Zhao to study the use of superconducting materials and apply them to neutrino communication base stations.

Zhou Yu left the neutrino communication laboratory and walked to the superconducting material laboratory not far away to check the progress of superconducting materials.