Research on energy and space, now, is conducted collaboratively by dostic and international institutions, with the entire theoretical team entering the Energy and Space Research Center and becoming the technical backbone of the center.
The Energy and Space Research Center is a newly established institution, dedicated to energy and space-related research. The research includes not only the current material experints but also ongoing studies of the physical properties of the Z-wave area.
The two areas combined cover a vast scope, including space link transmission technology, Z-wave generation technology, anti-gravity technology, and so on.
The Energy and Space Research Center can be said to be the institution for the research and developnt of various cutting-edge technologies.
Under the Energy and Space Research Center, there are the Z-wave experintal group, the Space Information Technology developnt team, and the Matter Transmission Experint Committee.
The matter transmission experint currently underway falls under the jurisdiction of the Matter Transmission Experint Committee. The core four mbers of the theoretical team all serve as mbers of the committee, with Zhao Yi as the chairperson of the committee.
As it is an international collaboration, other teams also have representatives serving as mbers of the committee.
The committee is not political in nature; rather, it is directly related to the experint. The committee is responsible for the design work related to the experint. After the experint concludes, it is tasked with reviewing reports on data detection submitted by the various teams, and it undertakes the auditing, summarizing, and analysis of the overall team data.
During the process of studying the experintal data, the various teams may also derive certain conclusions based on the data obtained.
Ownership of these conclusions belongs to the discovering team and, subsequently, the Matter Transmission Experintal Group.
To make an analogy, the Matter Transmission Experintal Group is similar to a scientific research institution, and the various teams, including participating scientists, are like scientists in a research team. Their research findings are partially attributed to the experintal group, but the honors still belong to the various teams and individuals.
This also motivates all the involved teams and scientists to put their utmost passion into the research, hoping to make discoveries in new fields and achieve results for their teams or individually in the developnt process.
After the first test experint concluded, all the teams imrsed themselves in data analysis work. The mbers of the theoretical team, who are also committee mbers, along with other mbers of the Experintal Committee, initially didn’t need to do much, just wait to review the reports submitted by the other teams.
At the mont, the reports have yet to co in, and several people are quite idle.
The other mbers are the sa.
The Experintal Committee comprises eight mbers. In addition to the four core mbers of the theoretical team, there are Horst Ludwig Stör, Ben Brad Chermickie, Bertelen Brockhaus, and Gerard T’hooft. They weren’t elected mbers, but were nominated by the core teams.
In fact, there was no need for nominations. Each of them, taken individually, is a leading figure in the field of physics. Three of them have received the Nobel Prize in Physics for their research related to Quantum Physics, and the remaining Chermicky is a Fields dal recipient.
Among the four core mbers of the theoretical team, none has received the Nobel Prize in Physics, but Zhao Yi’s influence speaks for itself, while Qiu Chengwen and Edward Witten are Fields dal recipients. Only Zhang Qican is slightly less renowned, but due to his latest research paper, he has beco well-known worldwide and is considered second only to Zhao Yi in theoretical research for cutting-edge technology.
The eight mbers of the Experintal Committee are all influential, which suffices to show just how enticing the matter transmission experint is and how important it is regarded.
It should be noted that several institutions and many top physicists desired to participate in the experint but were unable to pass the review and were directly turned away.
The experint is not open to just anyone who wishes to participate.
While the various teams are working on data, the mbers of the committee are also busy with their tasks. So are helping their own teams with data analysis, while others are conducting their research.
Take, for example, Edward Witten.
There are big teams like the Science Academy and the Z-wave data group dostically involved in data analysis, along with other mbers under the theoretical team working on related tasks. The core four mbers of the theoretical team are committee mbers and thus do not need to be directly involved in the data work, making the short period following the experint’s conclusion relatively relaxed.
Edward Witten then began his research, or organizing his studies, as he wasn’t very familiar with theories related to the latest technology and wished to strengthen his understanding of the relevant theories.
When he encountered questions he did not understand, Edward would directly ask Zhao Yi.
It was just such a day.
Zhao Yi’s work was still rather busy. After the experint ended, he was in communication with the team from Space Information Technology Company, hoping to further narrow the transmission range of the space connectivity device.
This was a technical issue that also related directly to the experint.
Edward Witten found Zhao Yi and asked him a question that Zhao Yi could not answer.
"I understand that the appearance of the anti-energy barrier occurs because space absorbs a massive amount of energy instantaneously. If the absorption speed is fast and reaches a certain extre value, it will open a barrier that isolates space," Edward said.
"Furthermore, when the anti-energy barrier is activated and the speed of energy absorption reaches another extre value, it will erupt in the form of Z-waves," he added.
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