The most important of these is still the Advanced Compression Materials Company, which needs to provide compression materials for many projects, including the most core interstellar spacecraft project.
To improve manufacturing efficiency, the Advanced Compression Materials Company had to create new Z-wave compression devices, but creating new devices would certainly take ti.
The efficiency of the Advanced Compression Materials Company directly determined the efficiency of the construction of Energy-Gathering Satellites.
For Yixing to talk about ’three years, thirty satellites’ was already an extre figure, because at the sa ti they also needed the Advanced Compression Materials Company to mass-produce compressed monocrystalline silicon, which was used to produce the solar energy receiver-transducers for Unlimited Power Automobiles.
anwhile, the whole world also focused on the solar-orbiting Energy-Gathering Satellite.
The Energy-Gathering Satellite had always received attention, but it beca hot recently mainly because other countries’ solar probes captured close-up photos of the Energy-Gathering Satellite flying towards the sun.
In addition, the probes also photographed the Energy-Gathering Satellite in operation.
Although the image was very unclear, just a small black dot, it was also evident that the Energy-Gathering Satellite was orbiting close to the sun.
Experts imdiately stepped forward to state, "The orbit at which the Energy-Gathering Satellite operates might normally exceed a thousand degrees Celsius."
"At the sa ti, it has to face intense solar radiation, magnetic storms, high-energy radio particles, and so on. Under such harsh conditions, the Energy-Gathering Satellite is still operating normally. How is this achieved?"
"Materials!"
In fact, the international community had long known that dostically, there was unique compression material technology, and many foreign institutions had even obtained samples of compression materials.
This was no longer a secret.
The external construction of the interstellar spacecraft project involved many countries, and many parts of the construction required the use of compression materials.
In addition, the core of the Unlimited Power Automobile, the solar energy receiver-transducer, also required the use of fivefold compressed monocrystalline silicon wafers.
When various institutions tested the materials they had in hand, they were amazed to discover the high physical characteristics of the materials.
One institution obtained compressed nickel-iron alloy and found that they were simply unable to detect the lting point of the nickel-iron alloy using conventional ans.
"Its lting point must reach at least fifteen thousand degrees Celsius!"
"An environnt of fifteen thousand degrees Celsius is not sothing that can be maintained by conventional ans."
So laboratories claid to be able to create environnts of hundreds of thousands or millions of degrees Celsius in high temperatures. In reality, these hundreds of thousands or millions of degrees Celsius are theoretical figures, and the asurent standard is the particle activity rate, but ’particle quantity’ is not discussed.
Having only particle activity rate is actually not very significant.
For example, steam.
Theoretically, steam exceeds a hundred degrees Celsius, but if you quickly run your hand through the steam, you would only feel warmth and it would not directly scald the arm. (Warning: This is just an example. Please do not attempt this experint. The author will not be responsible for any consequences.)
If the steam becos very thin, it will be even less ’powerful’.
This is because of particle density; when the density is insufficient, high particle activity rate is aningless.
The original nuclear fusion devices were the sa; so laboratories claid to have created environnts of over a hundred million degrees Celsius with nuclear fusion, but if the intensity was truly over a hundred million degrees Celsius, it would not be possible for any device to maintain it, and ’over a hundred million degrees Celsius’ was determined by particle activity rate, not by real detection issues.
Therefore, under conventional experintal ans, it’s very difficult to create a true high-temperature environnt of fifteen thousand degrees Celsius.
New types of compression materials with super high physical characteristics brought shock to all institutions.
At the sa ti, a research report from the Institute of chanics and the Precision Optics Laboratory revealed the principles of new compression materials.
"In our research on Z-waves, we found the principle that allows particles to be active with Z-waves lies in its ability to compress particles."
"Such compression, at certain ratios, is elastic, aning that after compression, particles will quickly return to their original state."
"But we believe that once the ratio reaches a certain level, it can maintain a stable state of compression."
"This is likely the secret behind the Advanced Compression Materials Company’s production of compression materials."
This claim was already very close.
The research report from the Institute of chanics and the Precision Optics Laboratory didn’t ntion the compression of space, but the principles were very close to the truth.
By accumulating and releasing Z-waves with a spatial cover, to achieve such in-depth research was indeed very remarkable.
In response to the research reports from foreign institutions, a special dostic conference discussed the issue and concluded that continuing secrecy no longer had any aning.
Thus, the Advanced Compression Materials Company published a technical report, explaining the principles of Z-wave compression technology.
This report was published in a dostic magazine but caused a sensation in the international academic community.
The principles of Z-wave compression technology, in simple terms, is to use Z-waves to compress matter; compressing to a certain ratio allows the material to maintain a stable state at that ratio level without being affected by spatial compression.
The relevant technical report did not ntion the na of Zhao Yi, but anyone who carefully analyzed the technical principles could find that it was definitely related to Zhao Yi.
Because of space compression.
This term appeared in the ’Mass Point Discussion’ published together by Zhao Yi and Edward Witten. Its most fundantal source was the Boundary Theory, and space was a concept put forward by Zhao Yi, directly equatable with Zhao Yi’s physical theories.
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