S difficulty, what is the concept?
Wang Hao has also established several S-level research tasks, including "Yang-Mills-Equation", "NS Equation", "Mass Point Construction", etc.
Some tasks can be completed, while others have never been completed.
For example, "Young-Mills-Equation" was not completed until the end. It only demonstrated part of the content and proved that the Yang-Mills equation was flawed.
At this point in the research, there is still the possibility of further demonstration, but there is no direction at all, unless one is specifically studying quantum physics, or the Standard Model of Particles.
Wang Hao is not interested in this.
The same goes for the research on "Mathematical Basic Structure Quality Points". It only solved part of the problem using mathematical foundations, but it was still not complete.
The research on "NS Equations" has been completed.
This research is a purely mathematical demonstration, which is relatively smooth. Every part of the demonstration is completed in a down-to-earth manner.
The current research project is "Regional Strong Annihilation Force Release of F-Rays". The difficulty of the research is judged to be S level, which makes Wang Hao a little confused.
"If we were just conducting experiments and designs, it would be impossible to achieve such a high degree of difficulty."
This much is clear.
Pure experimental device design and improvement, even if the span is like the development of a bulky computer seventy years ago into a precision computer, can be accomplished through slow design development.
S tasks can no longer be solved by pure design.
"It should involve the experimental direction, theory and data basis." Wang Hao frowned and thought, they don't even have a theoretical basis, it would be too difficult to find the direction for the experiment.
…
In order to give the research a direction, Wang Hao invited people from the research team to work with them to demonstrate the underlying theory of F-rays released by strong annihilation force fields.
As a result, nothing was found.
He soon understood why there was no progress in theoretical research.
Paul Phil-Jones said clearly, "It's because of the lack of foundation. We have done a lot of theoretical demonstrations, but there is no clear experimental proof."
"All microscopic theories now only provide an explanation."
Wang Hao understood.
They have completed many theories in the direction of annihilation physics, including annihilation particle theory, time theory, shaping higher-order particle equations, energy primeization theory, etc.
These theories seem to have been experimentally proven, but in fact, they are just theoretical explanations of macroscopic experiments and have not been clearly proven.
If you want to make a clear proof, you must conduct in-depth microscopic experiments. For example, particle collision experiments can study particle states.
"If we can connect the Standard Model of Particles and study the motion state and changes of the Standard Model of Particles in a strong annihilation force field environment and anti-gravity environment, we can provide sufficient experimental and data support for the next step of theoretical research."
Paul Phil-Jones made it clear.
Wang Hao thought about it and said, "Perhaps we should build a large particle collider? Or cooperate with the Institute of High Energy. Their positive and negative particle collider can also provide some experimental data."
Paul Phil-Jones said, "Further improvements are needed. What we want to study is particle collision in a strong annihilation field environment, and conduct detailed analysis of the detected data."
"This will be a huge project."
Wang Hao nodded thinking.
After everyone in the research team left, Wang Hao thought about the problem of the particle collider.
More than ten years ago, many physics scholars supported the construction of a large particle collider, and the project entered the demonstration stage. Even the construction site selection was completed. As a result, the demonstration has not been passed, and it requires very high requirements.
Due to lack of funding, the project was put on hold.
Wang Hao must admit that there are also reasons for the subsequent projects to be shelved.
At that time, Academician Hu Yourong approached him to support the particle collider project, and his reply was "not interested, not participating," and he held a neutral attitude.
As the most influential scholar in the country, his neutral stance is actually no different from his opposition, because similar large projects will definitely ask for his opinion. Without his clear support, there is no chance that similar large projects will be passed.
This can be said to be a side effect.
In fact, Wang Hao did not want to establish any school or group, but a school of thought naturally formed around him, forming a large academic group.
He did not suppress anyone or any institution, but his inadvertent statements and decisions would have a great impact.
Wang Hao thought about it and shook his head. He directly contacted Academician Tian Guilin of the Institute of High Energy and asked him to help find Hu Yourong and wanted to consult on some issues related to the Standard Model of Particles.
"Hu Yourong? He just completed his retirement a month ago."
Tian Guilin said, "He left the capital and returned to his hometown to retire. I heard that he was hired by Jilin University, and he will probably work in education in the future."
"Retired? Academician Hu?"
Wang Hao was a little surprised, "Academician Hu, he is only in his early sixties, right?"
Although over sixty is indeed the age for retirement, some older scholars rarely choose to retire on time, and their jobs are not busy. Most of them are doing academic research, engineering research, and students.
Will continue to be employed by the organization.
Tian Guilin said, "Academician Hu has indeed left. Why are you looking for Academician Hu..."
Wang Haodao, "I would like to inquire about particle collision experiments and experiments and research related to the standard model of particles."
"Look for Yan Yaojun! He is a student of Academician Hu, and he is also the best in related fields in China." Tian Guilin continued, "In recent years, high-energy particle collision experiments have been very few, and they are all divided into smaller ones.
Direction research. There is no cooperation with Europe. There are indeed very few scholars in this field."
He paused and continued, "I'll have Yan Yaojun contact you later."
"good."
Wang Hao put down the phone and felt a little depressed.
This chapter is not over yet, please click on the next page to continue reading! Half of the top scholars in the country who are engaged in particle collision experiments and the standard model of particles are concentrated in the Institute of High Energy.
Some of these scholars have turned to theoretical and experimental research related to annihilation physics, while others have simply gone across industries to study emerging technologies such as quantum computers, or, as Tian Guilin said, continue to engage in particle-related research in small directions.
.
Only a small number of them continue to stick to particle collision experiments and research on the standard model of particles, but it is difficult for them to make any results.
Because there is no experimental basis.
How can we study particle collisions when there is no large-scale particle collision experiment and we have lost cooperation with Europe?
That is of course impossible.
In fact, not to mention the Institute of High Energy, physicists at the European Organization for Nuclear Organization have all encountered the same problem. The European particle collider is also in a stagnation device most of the time.
One is because of the influence of the development of annihilation physics, which has caused the world's attention to be focused on research related to annihilation physics. The second is that since Wang Hao analyzed data to demonstrate tiny particles a few years ago, nuclear organization has not been discovered until now.
A dazzling new discovery.
Many physicists believe that conventional particle collision experimental research has reached a bottleneck.
If you just increase the intensity of particle collision, even if you upgrade the equipment and then upgrade it, it will be difficult to make any new breakthroughs, so new content must be introduced, such as the annihilation force field.
CERN’s new plan is to add the factor of ‘anti-gravity field’ to particle collision experiments so that collisions can occur in an anti-gravity field.
Although the new plan sounds interesting, it is also very difficult to introduce an anti-gravity field. It is not a technical problem. The main limitation is funding.
Antigravity field equipment is very expensive.
If you want to create a very large, high-intensity antigravity field, you will naturally need extremely large funds. At this stage, many countries' scientific research funds are invested in the direction of annihilation physics, and it is difficult to raise so much financial support.'
Particle research is about to be abandoned.
soon.
Yan Yaojun has already called.
He was very surprised when he knew that Wang Hao wanted to contact him.
As a student of Hu Yourong, Yan Yaojun is only forty-five years old, but he has become a leader in domestic particle collision research.
This is not an honor.
Yan Yaojun is very clear that he was elected mainly because the research on particle collision is in a "semi-abandoned" state.
There is very little new blood in this field.
Many scholars engaged in related research have also changed careers, and those who continue to stick to it can be said to be very unsatisfied.
It is difficult for them to achieve results and they cannot participate in any big projects.
To be continued...