The Technology Tree of Xueba

On April 10, 2023, Xiong'an New District welcomed a southward cold current, and there was sleet and sleet in the sky.

Huang Ke, the director of the scientific research center, braved the rain and walked into the Longshou Building. He came to Zhou Yu's office.

Huang Ke entered the office and said excitedly: Mr. Zhou, we have already coordinated. At 8:45 am on April 20th, the weather is fine, which is the best launch window time.

This time is a bit tight, and I don't know if the company has prepared satellites for launch.

The space base needs to line up to launch rockets, and the next launch window left for us is August 24.

If we cannot reach a consensus with Hainan Wenchang Aerospace Base as soon as possible, we will have to wait for more than four months to launch a neutrino communication satellite next time.

Is time so tight? Then I will try my best to arrange it. Scientists in the scientific research center have been developing neutrino communication satellites, especially after the success of particle batteries, the energy problem of neutrino communication satellites has been solved and the technical bottleneck has been broken through.

I learned that Zhao Zhao and the others have processed a neutrino communication satellite prototype, which is why I asked you to contact Hainan Wenchang Space Base. I didn't expect them to be in such a hurry.

I will have to find out about the neutrino communication satellite in a while. If the conditions are sufficient, we will arrange a satellite launch plan.

The next launch window is on August 24. If our neutrino launch satellite is successful this time, will we have to wait four months before we can launch a neutrino communication satellite again?

Huang Ke immediately explained: President Zhou, not only do we want to form a neutrino communication satellite network as soon as possible, but the country also hopes that the neutrino communication satellite network will spread all over the world.

In this way, submarines operating on the seabed do not need a communication mother ship, and our country's army of intelligent robots can also be put into use around the world.

The successful launch of neutrino communication satellites, just like the military uses airships to deploy neutrino communication base stations, they will also take over several communication satellites for military use.

Once we can prove the effect of the neutrino communication satellite, there is no need to wait any longer. Relevant interest departments will push Hainan Wenchang Space Base to arrange the launch mission as soon as possible.

Zhou Yu learned the specific situation, so he got up and went to the neutrino communication laboratory of the scientific research center.

When Zhao Zhao and Liu Jing were developing neutrino communication base stations, they wanted to develop neutrino communication satellites.

At that time, because Hainan Wenchang Aerospace Base was unable to launch a large neutrino communication satellite, and the neutrino communication satellite was very energy-intensive, the neutrino communication satellite project was aborted.

The neutrino communication laboratory has technical reserves related to neutrino communication satellites. With the maturity of neutrino communication base station technology, Xinghuo Technology's processing technology is moving towards nano-processing.

When the neutrino communication satellite is reduced in size, its accuracy is higher, and the particle battery has appeared to solve the power supply system, so that the neutrino communication satellite can be realized.

Zhou Yu came to the neutrino communication laboratory and saw Zhao Zhao and Liu Jing discussing things in this laboratory.

He walked over and asked, Are you talking about neutrino communication satellites?

Yes, the emergence of particle batteries allows neutrino communication satellites to break through all technical obstacles. Director Liu and I are discussing neutrino communication satellite related technologies.

We have completed the design of the neutrino communication satellite and are now discussing some details of the neutrino communication satellite. Zhao Zhao replied immediately.

Zhou Yu nodded happily and said: We have reached a cooperation with Hainan Wenchang Space Base. On April 20th, we are expected to launch a neutrino communication satellite at Hainan Wenchang Space Launch Base.

Not counting the time on the road, we only have 8 days.

Will we have time to build a neutrino communication satellite?

Now, whether our neutrino communication satellite can operate in the space environment for a long time.

Zhao Zhao said confidently: Mr. Zhou, we have produced two neutrino communication satellites to test its performance, one of which has been violently destroyed, and the other is ready for testing.

Through our tests on the neutrino communication satellite, it can withstand the harsh test of the space environment, and only need to send the spare satellite to the space launch center.

But our satellite is a bit big, and we don't know if the existing rockets can send it to the sky.

Zhou Yu smiled and said, Is the neutrino communication satellite still the model you reported to me?

Yes, in such a short period of time, we can only complete the detection of the neutrino communication satellite, and it is impossible to improve its model.

Hearing Zhao Zhao's answer, Zhou Yu patted the table and said, That's no problem at all, I asked Huang Ke to discuss cooperation with Hainan Wenchang Aerospace Base, according to the neutrino communication satellite you sent.

Hainan Wenchang Aerospace Base can agree to cooperate, and they must have a way to launch a neutrino communication satellite into space.

That's no problem at all, we can now transport the neutrino communication satellite to the Wenchang Space Base in Hainan.

Zhao Zhao and Liu Jing took Zhou Yu to observe the neutrino communication satellite they manufactured, and introduced some performances of the neutrino communication satellite.

The neutrino communication satellite consists of three parts. The top is a cone with a base diameter of two meters and a height of 1.5 meters.

In the middle is a sphere with a diameter of 5 meters, and below the sphere is a cuboid of 2.5 cubic meters.

The cone is the brain of the neutrino communication satellite, and there is a control center of the neutrino communication inside, which is used to direct the neutrino capture modulator to encode.

There are high-reliability chipsets and other components, and software operating procedures are installed. It is the most complex system for neutrino communication satellites.

A sphere with a diameter of 5 meters, this is the most energy-consuming neutrino communication satellite and the most important neutrino capture modulator.

There is no breakthrough in material technology, and the size of the neutrino capture modulator has shrunk to the limit and cannot be further optimized.

The cuboid at the bottom is the energy supply center of the neutrino communication satellite, which consists of two cubic meters of particle batteries and a power control system.

The neutrino communication satellite consumes about 10,000 kWh of electricity per day, and the two cubic meters of particle batteries can store 100 million kWh of electricity, which can allow the neutrino communication satellite to be used continuously for 26 years.

Zhao Zhao said excitedly: With the particle battery, the service life is short, and the satellites close to the earth no longer need solar panels.

The energy charged by solar energy every day is too little, so it is better to carry more particle batteries with the load of this device.

Our neutrino communication satellites have been optimized by quantum computers, and their performance has reached the peak of current processing levels.

Each neutrino communication satellite can provide communication services for 100 billion smart devices at the same time, and its average data transmission speed is one terabyte per second.

We modeled on the very classic GPS satellite system, which consists of 24 satellites at an altitude of about 20,000 kilometers, with an operating period of about 12 hours, distributed on six orbital planes, with an orbital inclination of 55 degrees.

This distribution allows more than four satellites to be observed at any one time anywhere in the globe.

Neutrino communication satellites achieve 100% global coverage and provide stable communication services for smart devices.