From university lecturer to chief academician Chapter 278: The research results were confirmed, and the international discussion was heated. Reporter: I regret it!
Chapter 278: The research results were confirmed, and the international discussion was heated. Reporter: I regret it!
In the ever-changing process of motion evolution in nature, the diversity of motion shows various symmetries.
There are two types of symmetries of different properties in physics -
One type is the symmetry of a certain system or a specific thing; the other type is the symmetry of physical laws.
The movement and development laws of things themselves will also show corresponding symmetry.
For example, as long as the properties of a certain aspect of an object do not reach extreme values, they can increase or decrease, expand or compress, and there will naturally be separation if there is attraction.
The existence of space squeezing itself is similar to the density of air and the atmospheric pressure on the ground. It is the squeezing force that exists at the microscopic level.
The intensity of space squeeze is the ‘average intensity’ of the universe’s annihilation force.
This value is difficult to measure and express, but it is basically just a number. The existence of the anti-gravity field reduces the intensity of space squeeze, so correspondingly, there must be an increase in the intensity of space squeeze.
"What will happen when the intensity of space extrusion increases, that is, the intensity of the annihilation force increases?"
"Is the strength of the annihilation force constant in the universe?"
"Is there a certain location or space in the universe, such as inside a black hole, where the intensity of the annihilation force is very high?"
"What about the other way around?"
These are all questions that can be imagined and explored.
Wang Hao frowned and shook his head. Of course, divergent thinking and imagination are possible, but unfortunately the theoretical research related to communication gravity is not in-depth, and the phenomenon of high annihilation force strength has not been discovered, so there is no way to study it directly.
However, he is very interested in the study of increasing the intensity of space squeeze.
Finally he decided to create a task--
[Task 2: Find the phenomenon of increasing space compression (Difficulty: S). 】
[Inspiration value: 0.]
When the task was successfully created, Wang Hao suddenly smiled.
The fact that the task can be successfully created and the difficulty is displayed proves that the phenomenon of increasing space squeeze intensity exists, but it has not been discovered yet.
Whether this phenomenon exists in the universe, in microphysical research, or in experiments related to AC gravity, as long as the phenomenon truly exists, it may be discovered in the future, and then it can be studied in a targeted manner.
"This will be a good direction..." Wang Hao was very sure about this.
Unfortunately, even if you know that the phenomenon exists, it is almost impossible to get inspiration because it has not been discovered yet.
This is not just teaching students or doing research with other people to increase your inspiration value.
In fact, it is similar to the discovery mission of the Annihilation Force. After the mission was established, the inspiration value did not increase for a long time. Later, in the physics laboratory, I learned that He Yi's team was replicating the exchange of gravity experiments, and the inspiration value increased significantly.
Wang Hao simply didn't think too much about it. He would always know if there was a discovery in the future. He continued to care about the experiment to measure the properties of antigravity, mainly about the situation of animals and plants in the exchange of gravity fields.
The good news is that animals and plants in an exchange of gravity fields are very similar to those in space. They show discomfort with the lack of gravity and have no other symptoms.
"Hopefully, it will be the same as in space, and there will be no other effects."
When Wang Hao and He Yi discussed, "If there is obvious discomfort or other effects, the AC gravity field will definitely not be used as a training venue for astronauts."
"In addition, the subsequent application of anti-gravity technology will definitely be greatly restricted."
This is mainly because the human body cannot exist in an anti-gravity field, and the application of aerospace technology will be greatly affected.
In addition, there will also be a problem of ‘field force exposure’ due to influences from other directions.
For example, anti-gravity maglev train.
If the field force has a direct impact on the human body, passengers in the train may be affected by the AC field in unexpected circumstances, thus directly affecting the health of the passengers.
From the perspective of scientific and technological applications, research in this area is still very important and requires continuous research.
For example, some negative effects of radiation cannot be seen in a short time, but will only become apparent over a long period of time.
Therefore, experimental research cannot be completed in one or two days. Their shortest plan is to last two weeks.
…
While Wang Hao was focusing on researching the properties of anti-gravity fields, a piece of news related to him suddenly appeared in the world.
To be precise, it is related to the theoretical research done some time ago.
The antigravity experiment team of Los Alamos Laboratory, that is, Philip Rohrer's team, cooperated with the laboratory's optical research team to measure the speed of light in an environment with 50% antigravity field strength.
The final conclusion was that the speed of light was reduced by about 15%.
This conclusion is basically consistent with Wang Hao's research, which is equivalent to confirming the research paper published by Wang Hao's team.
For a time, public opinion was heated.
Rohrer also publicly accepted an interview for this, and he couldn't tell whether he was happy or unhappy.
In fact, what he hopes most is to disprove Wang Hao's theoretical research, but the conclusions of scientific experiments cannot be falsified.
If scientific experiments are falsified, it is tantamount to misleading the development of science, and he will become a sinner written in history books.
In addition, even if the experimental conclusion is falsified, because the Chinese team also has corresponding anti-gravity technology, they can also measure the conclusion, and the falsification can be easily exposed.
So they can only publish the results.
This result also shows that China is far ahead in theoretical research in the fields of superconductivity and antigravity.
"Fortunately, it's not technical application, it's all theoretical research..."
Laurel could only think that the theoretical research that confirmed the 'competitor' was not good news.
Of course, Laurel would not praise Wang Hao during the interview. His main purpose was to show the public that the experimental team had the technology to create a high anti-gravity field.
They have completed the experiment, which means that the technology is very stable.
What the outside world doesn't know is that Philip's research team spent nearly 30 million US dollars to verify the conclusion.
This is definitely a big deal!
"Thirty million dollars was spent just to prove the competitor's research..." Laurel felt his heart bleed just thinking about it.
International public opinion does not care whether Rohrer's research team has the technology to create a 50% anti-gravity field, mainly because his experimental team has already released relevant results.
Many people even saw the news and thought that Rohrer's experimental team had faked its results and did not have the technology to use high-temperature superconducting materials to create anti-gravity fields.
International public opinion is concerned about the results of Wang Hao's research team.
"Laurell's research team confirmed part of Wang Hao's research."
"In an antigravity environment, the speed of light will decrease. From this, it can be inferred that particles will develop a certain degree of inertia."
"Although some mathematical content has not been confirmed, the numerical value of the reduction in the speed of light is accurate, which means that the main content is correct."
"The speed of light framework may also be correct..."
The international physics community has focused on Wang Hao's research on the two-point-five-dimensional topological structure.
That is the focus of the focus!
A well-known physicist stood up and explained the importance of studying the 2.5-dimensional topological structure. "In Wang Hao's research, the 2.5-dimensional topological structure is the main structure of photons, which directly determines the properties of photons.
nature."
"We can extend this, and massless particles all have similar structures."
"Massless particles can be understood as gauge bosons to a certain extent, because the known massless particles are all gauge bosons, including photons and gluons."
"Photons are the carriers of electromagnetism, while gluons are the carriers of strong force."
"Then we can study the structure of gauge bosons in depth, and extend this to studying particles and their combination forms, to explore the nature of the laws of the universe..."
After Wang Hao's theory was confirmed, many physicists would think deeply about it and come up with various ideas.
At the same time, other members of Wang Hao's research group also became famous.
In both domestic and international reports, the names of Paul Phil-Jones, Lin Bohan and Zhang He appear frequently because they are scholars marked as having made great contributions in Wang Hao's research papers.
Some of the theories under current research have been confirmed, and the relevant scholars are naturally famous.
…
Physicists are more concerned about subsequent research, and the proposal of the 2.5-dimensional topological structure is just the beginning.
There are many directions that can be explored in the future.
When a news media interviewed about the research, Wang Hao talked about this issue, "We have only constructed photons, and we have only described the 2.5-dimensional topological structure from the side."
"But with this, it can be extended to many fields, especially those theories that can only be expressed mathematically."
"For example, the issue of supersymmetry also includes the structure of elementary particles, the demonstration of the principle of non-conservation of parity, and some underlying theories of microphysics, etc."
"In fact, many known physics have not been confirmed by experiments, including some known particles."
"For example, gluons."
“In current microphysics, gluons seem to be particles that already exist, but in fact, experiments have never measured gluons, and it is only theoretically believed that gluons exist in hadrons. But as long as they are not actually discovered, the theory
It’s not necessarily correct…”
Wang Hao talked a lot about professional issues, and the more he spoke toward the end, the more profound he became, making the reporters feel numb.
After Wang Hao stopped talking, the reporter quickly turned to Paul Phil Jones next to him, hoping that the white guy could say something interesting.
Paul Phil-Jones has been looking forward to it for a long time. He likes to be interviewed by the news, especially after completing a big research, he feels like he has become an academic star.
He felt that he should show off his academic level, and immediately said seriously, "I completed a mathematical demonstration of a two-point five-dimensional topological structure in my research."
"Those are all important, including some..."
"Wang Hao also talked about the subsequent expansion of the 2.5-dimensional topological structure just now. I think the most feasible direction is to demonstrate the supersymmetry problem."
"The problem of supersymmetry is very easy to understand. Of course, most people probably don't understand it. I will briefly explain it here..."
"We all know that elementary particles can be divided into two categories according to their spins. Particles with an integer spin are called bosons, and particles with a half-integer spin are called fermions..."
"In this regard, it is generally accepted by the physics community that it is related to string theory..."
"In string theory, elementary particles are regarded as vibrating strings rather than point particles. Therefore, we established a supersymmetric theory of N=8 to unify fermions and bosons..."
"We believe that in addition to the four dimensions of the universe, there are four dimensions. The additional four dimensions cannot be understood as time or space..."
"The eight-dimensional universe is inhabited by fermions. Matter can transfer from the four-dimensional space to the eight-dimensional space where fermions live through spin, and can also transfer from the eight-dimensional space back to the four-dimensional space..."
The reporter was stunned.
When he was interviewing Wang Hao just now, he just felt like his scalp was numb.
Now it has become a confusing, boring content combined with a sharp tone, like a big rooster, constantly crowing in my ears.
The key is……
The rooster seemed to have seen his favorite hen. The more he crowed, the more excited he became, and the sound became louder and louder.
The reporter tugged at the corner of his mouth and thought about the interview just now, and realized that Wang Hao was so amiable.
Unfortunately, Wang Hao has left early.
I regret it!
…
What Paul Phil-Jones said in the interview came from the bottom of his heart. He indeed believed that the first thing to demonstrate in the subsequent expansion of the 2.5-dimensional topological structure is the issue of supersymmetry.
Most of the current basic mathematical frameworks for supersymmetry problems are explained by string theory.
The basis of annihilation theory, coupled with the two-point five-dimensional extended structure, can be combined to re-theore the supersymmetry problem.
In this way, annihilation theory can replace the role played by string theory in supersymmetry problems.
In fact, it's not just Paul Phil-Jones who thinks so, many theoretical physicists also have similar ideas.
In the current international theoretical physics world, annihilation theory and string theory are divided into two parts. String theory still has a great advantage, or it can be understood that string theory occupies more "territory".
Many physical theories have applied the mathematical explanation of string theory.
However, the research on string theory has stalled, and there has been no new progress for a long time. Those that can be explained have been completed, and those that cannot be explained are still unexplained.
Annihilation theory is different.
Annihilation theory has just started, and it can continue to conquer cities and play a role in various fields. For example, supersymmetry problems can be explained by the content of M theory, and annihilation theory can also be studied in the future.
Many theoretical physicists are very interested in this, including some string theory scholars.
Not all string theory scholars are loyal.
They already have two role models, one is Paul Phil Jones and the other is Ledley Parsons.
Paul Phil-Jones gave up string theory and turned to annihilation theory. He achieved a lot of results in a short period of time. He has become Fields, a potential Nobel winner, and can be said to have become one of the big names in mathematics and physics.
Ledley-Parsons is considered to be the pioneering expansion of annihilation theory into theoretical physics. A brand-new analysis of the big bang theory shocked the international physics community.
He is also considered the "number three figure" of the annihilation theory school.
Pioneers will always be noticed.
The current research on 2.5-dimensional topological architecture is like opening the door to a treasure, which can expand research in many directions. Physicists are naturally very interested.
Domestic scholars also have the same idea. Many well-known physics professors have taken the initiative to contact Wang Hao, hoping that he can provide some theoretical physics directions.
Among them are Zhou Yun, a well-known domestic theoretical physicist, head of the Society of Theoretical Physics, and professor of the Department of Physics of the Academy of Sciences.
Zhou Yun contacted Wang Hao via email, and after receiving a reply, he directly sent a video link.
Wang Hao patiently talked about the research on the 2.5-dimensional topological structure and his thoughts on subsequent expanded research.
He just provides a direction.
In fact, the scope of theoretical physics is too broad, and there are many research directions.
Zhou Yun listened patiently, and then asked, "Academician Wang, do you have any ideas about developing the annihilation theory?"
"certainly."
Wang Hao nodded affirmatively.
The annihilation theory is the research he pioneered, so he naturally hopes that the theory will flourish.
Zhou Yundao said, "Okay, I think the current annihilation theory has become a major internationally recognized physical theory, so we can hold an academic conference related to the annihilation theory. What do you think of this idea?"
Wang Hao thought about it carefully, "It's okay, but how to hold it? It's a bit too troublesome..."
"No trouble!"
Zhou Yun said enthusiastically, "We at the Physics Society will be responsible for holding academic conferences. When the time comes, Academician Wang, all you have to do is come and attend and give a report."
"That's it..."
Wang Hao hesitated and thought about it, but it seemed that it would do no harm to him. He simply nodded and said with a smile, "If it is a meeting on the annihilation theory, I will be well prepared."