After attending the project meeting of the Science Foundation, Wang Hao returned to Xihai University. The project research had just begun, and his work life was quite relaxed.
He spent a lot of time supervising several students' papers and submitting manuscripts.
It is almost the graduation season. Some of the students have published their papers and some are preparing to submit them.
Among them, the most labor-saving ones are Qiu Hui'an, Li Xin and Zhang Yixin. Qiu Hui'an completed the proof of Legendre's conjecture and can use it as his master's thesis.
Li Xin and Zhang Yixin have been participating in laboratory projects, and their performance has not been outstanding. However, they have been following the research and it is still very easy to complete a paper.
They are excellent students themselves. Not only did they complete their graduation thesis, they also revised and submitted it for publication in foreign magazines and entered SCI retrieval.
The papers written by Helen and Chen Mengmeng were the most laborious. They had been doing theoretical physics research with Paul Phil-Jones, and their research had indeed produced certain results.
But just because there are certain results, we naturally want to do better.
Wang Hao reviewed their research and discussed with them. Later, the research was revised several times and finally decided to submit it to the top physics journal "Physical Review Letters".
Xu Jie is a special one.
As a graduate student in the Department of Mathematics, he eventually published a research paper on mathematical computers, doing research on geometric electrical signals.
Wang Hao still cared about the content of his research, but later found that he didn't need to care at all. The one who cared most was Zhang Zhiqiang.
Xu Jie’s thesis was taught by Zhang Zhiqiang step by step.
Now Xu Jie has decided to study for a Ph.D. directly with Zhang Zhiqiang, and Zhang Zhiqiang also appreciates Xu Jie very much and plans to make him his outstanding student.
Wang Hao felt like he was being robbed by his students.
However, there is nothing we can do.
Who asked Xu Jie to do research with him, but he couldn't do anything at all?
In the end, I could only follow Zhang Zhiqiang.
However, saying that Xu Jie's mathematics level is poor is only compared to Helen, Qiu Hui'an and others. He is doing research in the field of mathematics and computers, and his mathematics ability is completely sufficient.
Mathematical computers are also a good direction, including Zhang Zhiqiang and Luo Dayong, their main directions are mathematical computers.
All the students under Wang Hao's guidance have completed their graduation thesis, and he feels much more relaxed. After all, he is a top scholar, and he does not want students who cannot graduate.
Scholars still have to fight for face. It is a bit embarrassing for students selected from Pakistan to not graduate.
After that, Wang Hao also paid attention to the Antigravity Behavior Research Center, which conducted research on the direction of the behavior of the antigravity field.
This direction is still very important.
Wang Hao is most concerned about the study of particle inertia in antigravity fields.
The reduction in the speed of light is a manifestation of particle inertia.
Although the framework theory of photons has been completed and some conclusions have been drawn, related research is still very important.
If the inertia of particles can be controlled, it will not only help improve the theory, but also have broad application prospects.
For example, will particle inertness cause nuclear reactions to slow down?
If the nuclear reaction speed is slowed down, whether it is a fusion reaction or a nuclear fission reaction, it will be easier to control to a certain extent.
Of course, the above is not a research that can be completed by a team, and requires research and demonstration in multiple directions.
Another point that Wang Hao is concerned about is the problem of proving the existence of the space squeeze field.
In the study of photon structure shaping, the mathematical structure description of the anti-gravity field shows that the anti-gravity field has the effect of reducing the intensity of space squeeze, that is, reducing the intensity of the annihilation force.
But how to prove it?
Antigravity fields can be understood in several ways, the two most important of which are reducing the gravitational constant, which means reducing the effect of gravitational waves.
The other is based on
Reduces space compression and directly affects the quality displayed by the object.
Both ways of understanding are possible.
According to Newton's law of universal gravitation, whether it is reducing the gravitational wave effect or reducing the mass, the gravitational effect can be reduced, and its manifestation on the earth is the gravitational effect.
At the same time, there are several other related explanations, but the most credible ones are the above two. Public opinion in the academic world tends to the first one, which is to reduce the effect of gravitational waves.
Because of this, it is called anti-gravity
Wang Hao naturally knew that it was the first type, because it reduced the space squeezing effect and directly acted on the mass of the object.
When he was thinking about the verification problem, He Yi came directly to the door and shouted, Wang Hao, new results! The Planck Institute proved the annihilation force! "
"Has the existence of the annihilation force been verified?" Wang Hao asked in confusion.
He Yi nodded and sighed, "To a certain extent, it can be said that they designed a very clever and very simple experiment to prove that the anti-gravity field directly acts on mass!"
"However, it won't be easy for them. They can only create an anti-gravity field of fifteen fields."
After hearing this, Wang Hao immediately paid attention to the new results.
The German Planck Institute, which can be understood as the German Academy of Sciences, has formed an anti-gravity research team.
After Wang Hao's research group published a paper on photon architecture, many physicists around the world began to study it, and various antigravity teams also began to design experimental demonstrations.
The anti-gravity team of the Planck Institute is dedicated to researching the properties of anti-gravity fields. After understanding the results of the photon architecture, they naturally understand the mathematical expressions inside, which shows that the mechanism of anti-gravity fields is to create a region that reduces the space squeezing effect. .
Among them was an outstanding young researcher who designed a very clever experiment.
Taking advantage of the buoyancy and mass-independent properties, they conducted experimental tests of levitation in an antigravity field.
At the beginning of the experiment, when the anti-gravity field was not turned on, an object with a wooden iron core was suspended in the middle of the water.
Afterwards, the anti-gravity field was turned on, and the object immediately floated to the water.
After several consecutive experiments, they determined based on the experimental results that the antigravity field acts on mass rather than gravitational waves.
The principles are directly related to Wang Hao's research results.
Wang Hao’s research on photon architecture shows that anti-gravity fields will make particles inert. For example, the speed of light will decrease. However, particle inertia and anti-gravity fields are not directly proportional. Only 50% of the anti-gravity fields can slow down the speed of light. Fifteen percent. 1
Therefore, even if the anti-gravity field can affect the buoyancy effect, it will certainly not be directly proportional to the weight reduction like an object.
When an object is suspended in a liquid, the forces on it are naturally balanced, and the formula can be drawn -
p liquid gV row = g.
When the experiment is in an antigravity field, the buoyancy force is significantly greater than the gravity, which naturally proves that the mass of the object has decreased.
The results of this simple experimental study are not 100% convincing, because there is no definite result on the impact of anti-gravity fields on buoyancy.
However, it is still very persuasive to a certain extent.
The antigravity team of the Planck Institute used a very simple experiment to prove that the antigravity field directly acts on the mass of the object. The publication of the results will also have a very large impact.
Even though the photon structure results published by Wang Hao used data to construct an explanation that the effect of anti-gravity is the reduction of space squeezing effect, most scholars still prefer that the effect is the effect of gravitational waves.
Now the team from the Planck Institute has used an experiment to show that it is action and mass. To a certain extent, it has also confirmed the existence of the space squeeze effect and the annihilation force.
Muller from the Planck Institute team said in an interview, "It is at least very likely that the space squeeze effect, that is, the annihilation force, exists."
"The explanation of the annihilation force can perfectly explain the experiment, but there is not even a theory for the effect of gravitational waves."
"We believe in the experimental results and go
The simplest experiments are the most convincing. "
After the results of this experiment were published, many people felt incredible.
The reason why many scholars believe that antigravity fields act on gravitational waves is because they believe that mass will not change.
The current results show that the quality has been reduced, which feels a bit contrary to common sense.
Wang Hao couldn't help but sigh after seeing the new results, "It's a very simple experiment with very good results. I didn't expect that it could be verified so easily."
"There are still many geniuses in the world."
Wang Hao found that his previous thinking was too complicated, and he always linked the verification of anti-gravity field characteristics with very complicated microphysics.
Now the results of the Planck Institute have proven that simple mechanical research can also bring great help to the study of antigravity fields.
He Yi felt very annoyed. He felt that his team had such a good environment and was able to create more than 50% of the anti-gravity field.
The team at the Planck Institute can only create 15% of the anti-gravity field. Even for mechanical experiments, the effect is very poor.
"Why didn't I think of this method?" He Yi said depressedly.
Wang Hao didn't care at all. He didn't lack a result at all, the result of the Planck Institute; it verified the existence of the annihilation force to a certain extent, which was very beneficial to the annihilation theory.
"We can't do all the research," he said.
"When the research was made public, we hoped that more scholars and more teams would participate so that it could be gradually improved."
"It's normal for other teams to have results."
The results of the Planck Institute cannot 100% prove the existence of the annihilation force, but it can be said to prove one-third.
If the annihilation force is to be completely confirmed, the most direct way is to measure the 'conventional annihilation constant', which is the strength of conventional space extrusion.
From this we can derive many conclusions that can be confirmed experimentally.
In addition, it is also necessary to connect with microphysics to verify the role of annihilation force in microphysics. "Demonstration mass unit..."
"It must be related to at least one microscopic force to find out the relationship."
"Demonstrate the role and performance of annihilation force in microphysics, improve the annihilation theory, and combine it with existing microphysics..."
Each of the above is very important.
Although the research on annihilation theory still has many directions and a lot of work, the work cannot be completed in one breath. The improvement of the theory is a systematic and huge project.
Wang Hao still has a relaxed work life, taking time to work on space agency projects and completing the corresponding core code.
The rest of the work is done by others in the laboratory.
On this day, everyone in the laboratory was in the office and held a project-related work allocation meeting.
Wang Hao talked about the core code issues, and the others communicated and discussed together.
Wang Hao was very leisurely. He casually read the news and opened his email to check. He found that there were several special emails with similar contents.
The first letter was from Didier Mayor, and the expression in it was very enthusiastic, "Dear Wang Hao, there is news that you will definitely be interested in. This year you have been nominated for the Wolf Prize.
It's still a little early, but congratulations in advance on winning the Wolf Prize. "
Afterwards, Didier Mayor asked Wang Hao about his recent research. The purpose was to know whether Wang Hao had any research that needed to be verified by experiments.
Wang Hao does have a lot of content that needs experimental research, but most of it is related to the anti-gravity field, so Mayor's team has nothing to do.
He wrote the reply with a smile on his face. The general meaning was that he was concentrating on research on superconducting mechanisms and had no ideas related to quantum physics for the time being.
After that, Wang Hao checked other emails. Several of the emails he sent were from big names in the international physics and mathematics circles. Their contents were similar to Mayor’s. Just to explain, they sent them through their own channels.
I learned that Wang Hao was related to the Wolf Prize.
Among them was a famous Finnish mathematician who seemed to have accurate channels. "Your superconducting semitopological theory was nominated for the Wolf Prize in Physics, and you were personally nominated for the Wolf Prize in Mathematics."
"Congratulations on winning the Wolf Prize in Mathematics and Physics!"
Wang Hao read several emails in a row and knew that the matter must be true, otherwise there would be no way so many people would send emails.
These scholars sent emails because they knew he would definitely win the award.
As long as he is nominated for the Mathematics Award, he is basically guaranteed to win.
The influence of the superconducting semitopological theory is so great that as long as a candidate for the Physics Prize is awarded, more than 90% of the candidates will win the Wolf Prize in Physics.
Looking at the emails one after another, Wang Hao couldn't help but smile. He still has expectations for international awards.
Although in terms of his fame and influence, the Wolf Prize can only be said to be the icing on the cake, but he can win the Wolf Prize in Mathematics and the Wolf Prize in Physics at the same time...
It can be considered unprecedented!
At this time, there were many people sitting in the office, including Luo Dayong, Zheng Yaojun, Zhang Zhiqiang, Qi Xiao, Zhu Ping and others, who were discussing the allocation of project work.
Zhang Zhiqiang noticed Wang Hao's expression and leaned over with some confusion. He glanced at his computer screen and asked, "What is this?"
"nothing."
Wang Hao shook his head indifferently, "It's just that someone told me that I might win the Wolf Prize in Mathematics and Physics this year."
Suddenly.
Everyone in the office looked over.
Wang Hao noticed everyone's looks and added, "It's just possible..."
"Maybe, it means yes!" Zhang Zhiqiang nodded vigorously, and then asked, "Is it research on superconductivity?
"probably."
Wang Hao answered and looked at Luo Dayong, and said with a bit of regret, "Many international physics awards only award three people at most. Brother Dayong, you probably won't be able to..."
Regarding the research on superconducting semi-topological theory, the three most important people to comment on are Wang Hao, Bill Carr and Lin Bohan. Luo Dayong's contribution can only be ranked fourth.
"it does not matter."
Luo Dayong only felt a little regretful, but after thinking about it, he didn't care at all. "I didn't have much contribution originally, so it would be great to participate. I estimate that the research on superconducting mechanisms will win many awards in the future."
The others nodded, and they looked at Luo Dayong with some envy.
Although it is difficult for Luo Dayong to win an award based on his research on superconducting semitopological theory, he has participated in the research and made certain contributions.
Even if he cannot win an international award related to research, he is personally recognized by the international academic community.
In addition, Luo Dayong is also a member of Wang Hao's research team. Not to say he is the most important, but his status is also quite high.
Luo Dayong can now be regarded as a top scholar.
When the news of the award came out, there was an endless discussion in the office. After Zhang Zhiqiang returned to his seat, he slowly became sad while talking to others.
He recalled several people in the complex office.
When Wang Hao first came to Xihai University, he was the core focus in the small office. He was the first to confirm his promotion to associate professor and his future was bright.
At that time, Luo Dayong had no results for several years and might face unemployment in the future.
When Wang Hao first entered Xihai University, everyone thought he would not be able to work for more than a year.
Zhu Ping just graduated with a master's degree, so it would be great to be a small lecturer for the rest of her life.
Yan Jing's time here was also very short, and there was no achievement at all.
Now……
Needless to say, Wang Hao; Yan Jing is a professor at the Anti-Gravity Research Center and is involved in top-level confidential research; Luo Dayong has become an internationally renowned scholar and is recognized as the top figure in the field of complexity issues.
It's just him, just an ordinary professor doing projects.
"Oh~~~"
Zhang Zhiqiang let out a long, depressed sigh, unconsciously moved closer to Zhu Ping, and muttered in a low voice, "In the original office, we were the only ones on the same team."
"Who is on the same team as you?"
Zhu Ping shook her wavy head vigorously, "I don't do scientific research. I have applied to transfer to administration. Our family is engaged in scientific research, and Dayong will be fine."
Zhang Zhiqiang stared at the wavy hair without even hearing what she said specifically.
He grabbed a few sparse strands of dry hair on the top of his head with his hands, and suddenly thought about a philosophical question, "Why is it that my hair is falling the fastest even though I am doing research?"
"And, in the end, I became the worst one..."
…
The news about the Wolf Prize is just a small episode. After all, the award has just entered the nomination stage and it will take more than half a year before the winners are announced.
Wang Hao also continued to work and live normally, while paying attention to international academic developments.
The research results of the antigravity team of the Planck Institute have indeed aroused widespread heated discussion. The behavior of the antigravity field has become a focus issue, and then research related to photonic architecture has once again received a lot of attention.
Many top physicists have invested in research on related content. The physics community is very concerned about the development of follow-up research. "The results of the Planck Institute have, to a certain extent, confirmed the characteristics of the antigravity field."
"If the annihilation force really exists, how can we prove it?"
"From the research on photonic architecture, what determines the characteristics of photons is the 2.5-dimensional topology."
"According to Wang Hao's theory, the two-point five-dimensional topology is generated by the space squeeze effect, that is, the annihilation force..."
"If we want to verify the existence of the annihilation force, perhaps we must first understand the two-point-five-dimensional topological structure, rather than just demonstrate it from the side."
The last sentence is recognized by many physicists.
The research on 2.5-dimensional topological structures is indeed very impressive, but in fact, the relevant descriptions of photonic architecture are sideways, that is, they are discussed from the perspective of photon properties, rather than truly analyzed.
So how does the annihilation force work to produce a two-point-five-dimensional topological structure?
How does a two-point five-dimensional topological knot maintain steady operation?
Bell Shinnick, a famous theoretical physicist at the University of Cambridge in Eagle Country, was interviewed by reporters and talked about the issues related to follow-up research, "No matter from any angle, if you want to analyze the annihilation force, you will inevitably encounter a problem. , that is, a 2.5-dimensional topological structure.”
"Beyond the 2.5-dimensional topological structure is the three-dimensional universe. So how is the 2.5-dimensional topological structure maintained?"
"What is the boundary between the 2.5-dimensional topological structure and the three-dimensional space?"
"The latter is very critical."
"Unless this problem is solved, the Annihilation Force will never be understood."
Bell-Shinnick's words were recognized by many theoretical physicists and reported by many media.
At this time, many string theory scholars seemed to be in high spirits.
When it comes to space dimension arguments, string theory is the expert!
Even for the 2.5-dimensional topological structure, part of the mathematical content of the dog was completed by Paul Phil-Jones, who was once a top scholar of string theory.
They feel that they can use the mathematical system of string theory to construct a two-point five-dimensional topological structure and solve the boundary problem between the two-point five-dimensional structure and the three-dimensional universe.
at the same time.
Wang Hao is also thinking about the same problem. He naturally knows the importance of demonstrating dimensional boundaries.
If it were just a high-dimensional demonstration of string theory, it would feel very divorced from reality.
However, the 2.5-dimensional topological structure is different. He is sure that the relevant research is correct. So how to analyze the boundary problem between the 2.5-dimensional topological structure and the three-dimensional structure?
This is a very deep mathematical problem.
Wang Hao thought carefully and couldn't find the direction. He simply tried to create a task--
【Task 4】
[Research project name: Two-point five-dimensional topological properties and three-dimensional universe boundary problem (difficulty: S). 】
[Inspiration value: 0. 】
S level...
It seems that it can be studied!
After Wang Hao established the task, he still couldn't find the direction. He was not too anxious because the content of his current research was too advanced and somewhat divorced from experiments and life.
This kind of top-level mathematical research may be able to gain some inspiration in professional fields.
What he was waiting for was the annihilation theory conference that was being organized.
In recent years, the development of annihilation theory has been very good. Many mathematicians and physicists around the world have begun to study annihilation theory.
This time is the first professional conference on annihilation theory, and many scholars will definitely attend.
That will upgrade the conference to a large-scale international professional conference.
Wang Hao waited patiently. What he didn't expect was that the inspiration value would come so quickly.
this day.
Qiu Hui'an found Wang Hao and asked a question in the field of number theory.
Wang Hao and Qiu Hui'an studied together for a while, and then gave Qiu Hui'an an answer.
After the two of them had almost finished talking, Ding Zhiqiang knocked on the door and walked in.
Recently, Ding Zhiqiang has been preparing his master's thesis. The direction he is looking for is in the field of algebraic geometry and the representation of special algebraic sets. He also has some ideas for specific research, so he wanted to talk to Wang Hao.
After Ding Zhiqiang entered the door, he talked to Wang Hao, "Teacher Wang, I want to find special cases in the special set of algebraic varieties to conduct specialized research. This direction..."
"no problem."
Wang Hao affirmed, "If you have an idea in this direction, you can go for it. Whether it is the representation of algebraic varieties or geometric varieties, it is very important research. If you don't understand anything, you can ask me or ask Kaqie Er, or someone from the calculation team."
Ding Zhiqiang received the affirmation and couldn't help but feel a little happy.
Wang Hao suddenly turned to Qiu Hui'an and asked, "Hui'an, do you have any ideas about research directions? You are going to study for a Ph.D. soon. It would be good if you have a definite direction in advance."
"It should be number theory..."
Qiu Hui'an hesitated and said nonsense, then shook his head and said, "I haven't thought about it yet."
Ding Zhiqiang joked, "There are many directions in number theory. Teacher Wang has completed Goldbach's conjecture. I think you can consider the Riemann conjecture. These are two major number theory problems."
Qiu Hui'an's face darkened when he heard this, and he was about to say something in reply.
Wang Hao's eyes suddenly lit up and he gave a thumbs up to Ding Zhiqiang, "That's very well said, Zhiqiang, you are indeed a genius!"
Ding Zhiqiang touched the back of his head in confusion.
Qiu Hui'an said blankly, "Teacher Wang, do you think I should study the Riemann Hypothesis?" He was very unconfident as he said it, because he felt that the Riemann Hypothesis was not something he could study at all. "
"What?"
After hearing this, Wang Hao was stunned for a moment and then quickly reacted, "You have misunderstood. It is up to you to decide the direction of your research. That's not what I'm talking about. I just think Ding Zhiqiang is a genius."
He said and glanced at the system, there was already a new message.
[Task 4, inspiration value +1. 】
very good!
It seems that the study of 2.5-dimensional topological properties and the boundary problem of the three-dimensional universe can be started from the perspective of the Riemann Hypothesis.
Qiu Hui'an and Ding Zhiqiang walked out of the office together.
When he arrived at the door, Qiu Hui'an couldn't help but complain, "Ding Zhiqiang, do you understand what happened just now?"
"Understand what?"
"Didn't you notice? Teacher Wang is very... partial to you, yes, that's right! No matter what you say, Teacher Wang thinks you are a genius." Qiu Hui'an said with a sour tone. I feel that I am a genius because I solved the Legendre Conjecture during my graduate studies.
But why does Teacher Wang Hao always praise Ding Zhiqiang?
Although he is already an adult, he still wants to be praised by Teacher Wang Hao!
Ding Zhiqiang didn't look happy at all after hearing this. He carefully thought about the miserable life he had endured in the past few years until now.
like……
All the sufferings stem from a compliment from teacher Wang Hao when I was a junior in college?
Later, he was constantly praised, and he was considered a genius by the people around him, so he began to study continuously without even having any free time.
Ding Zhiqiang realized.
He thought of a very popular Internet buzzword-PUA.
Thinking about it carefully from beginning to end, wasn't it that I was PUAed by Teacher Wang Hao? It was PUA for several consecutive years until he got used to it.
This is absolutely terrible!
Everything, that’s how it is!
