Chapter 301 All contradictions are worth mentioning in the face of new physics
!
Florida State University.
After Ledley Parsons finished the course, he went to the High Magnetic Physics Laboratory to learn about the new discoveries of Lin Wenji's team.
Lin Wenji had already talked to him once, just giving a brief introduction, but he didn't think the new discovery was anything special.
It’s not that Parsons is not optimistic about anti-gravity research, but that he is not optimistic about Lin Wenji’s team.
There are nearly twenty teams in the world that specialize in anti-gravity technology. The ones with stronger technical capabilities are old teams that have been established for three or four years and have already achieved a lot of results.
Lin Wenji's team is relatively young, and being young means there is no foundation.
If such an experimental team says it has made a new discovery, it is unlikely to be a great achievement.
Parsons didn't care too much.
When he walked to the door of the laboratory building with a relaxed mood, he was directly stopped by the security guard.
The security guard was a fat black man who looked very strong. He held an electric baton in his hand and a pistol on his waist. He directly placed the electric baton in front of Parsons and said, "Stop! This is
Forbidden."
"I'm Ledley Parsons!" Parsons introduced himself with some annoyance.
The fat and black security guard immediately glared, "I'm talking about you!"
Parsons was stunned for a moment, "Didn't Lin Wenji tell you? I'm here to see the experiment."
"I don't care what you are here for, I just know that I can't let you in!" The fat black security guard's words were sonorous and powerful. When he saw that Parsons was a little unconvinced and wanted to move forward, he simply fell down.
He was holding an electric baton and posing as if he was about to take out a pistol.
Parsons was so frightened that he quickly raised his hands and took several steps back, almost tripping over the steps.
In the end, he could only leave angrily.
After leaving the laboratory building, the more Parsons thought about it, the angrier he became. He immediately took out his cell phone to call Lin Wenji.
At this time, a colleague who only knew his name came over immediately when he saw him, and said with some gloating, "Ledley, you must not know what Lin Wenji said."
Parsons was stunned for a moment, "What did he say?"
"He said he didn't believe your theory at all, and said you were a liar and that your research was just pieced together."
The colleague's tone was not very good, and he was obviously trying to add fuel to the fire. "Listen to these words. I can't believe there are still people saying this at the University of Florida."
"He told the students directly during the course."
Parsons was immediately very annoyed. He dialed the phone directly. After the call was connected, he asked angrily, "Lin Wenji, what on earth did you say? Why did you do this?"
Lin Wenji, who was on the opposite side, immediately replied, "Ledley, I'm officially informing you that from today on, we are no longer friends. Please don't call me again. I will also block your number."
"Also, let me say it again, I don't believe your theory, and I think you are a liar."
"That's it, bye!"
Parsons was stunned when he heard this, and was so angry that he almost dropped his phone on the ground.
He had no idea what happened specifically, and wondered, "Is it because of Wang Hao's paper published in Nature magazine?"
"It shouldn't be..."
"That paper talks about strong annihilation force. It's something that only exists in theory. How could it affect Lin Wenji?"
"He doesn't do theoretical physics research..."
Parsons couldn't understand it at all, and later he simply gave up because many people supported him.
Even though Wang Hao published new results in Nature magazine, he used the theory of "strong annihilation force leads to the weakening of matter form" to supplement the role of dark matter in astronomy.
But, so what?
The theory based on strong annihilation force is simply unverifiable.
His theory is supported by more physicists. The reason is very simple. His theory recognizes the existence of dark matter and links dark matter with the Higgs particle. In the future, it may communicate with the standard model of particles and integrate with existing quantum physics.
together.
Many physicists believe that his theory is highly credible and worthy of further study.
Of course Parsons knew that his research was all pieced together, but as long as the error could not be proven in a short time, it would not matter if it was overturned decades or hundreds of years later.
The future, who cares?
…
Wang Hao has already made a detailed research report to his superiors, explaining the importance of studying the magnetization effect of superimposed force field edges on matter in antigravity experiments.
This research cannot be completed by a team.
If a team were to complete it, it would require a lot of investment and take a long time.
For a theoretical study, it is obviously not worth the gain.
Just like the European Particle Collider experiment, the total cost is tens of billions of dollars.
Of course, it is possible for a big country to support the completion of the project. Tens of billions of dollars is not an unacceptable figure, but no country will do that, because it is just a theoretical research, and if many of the results are made public, it will be equivalent to paying for it and benefiting the whole world.
.
Current research is the same.
The superposition edge effect is not a difficult experiment. It will definitely be discovered by many experimental teams in the future. The relevant research involves strong annihilation force. It is definitely only a theoretical study in a short period of time, and it is very difficult to apply it technically.
In fact, even now, antigravity research has achieved many results, but large-scale applications have still not been realized.
Even if there are already some applications, they are all technology investment projects.
For example, anti-gravity maglev train.
This project will not create any profits, and maintenance of trains and main lines will require continuous investment.
The superior department quickly gave its approval and supported the convening of an international anti-gravity research conference.
The meeting is led by China and will be held in one month. The organizers are the Antigravity Behavior Research Center, the Condensed Matter Physics Research Center and the Institute of Physics of the Academy of Sciences, which are three domestic antigravity research institutions.
After the conference was confirmed, various international anti-gravity research teams and institutions received invitations one after another.
The content marked on the meeting invitation is also very simple.
There are two main points. The first point is to hold an international anti-gravity conference and invite various teams to make research reports.
The second point is that a brand new physical research will be disclosed, involving the ‘strong annihilation force’.
The other teams were surprised when they heard the news.
They will naturally pay attention to the latest results in the field of annihilation theory, and know that the latest research by Wang Hao and his students is related to the strong annihilation force.
When most people see a paper published in Nature magazine, they subconsciously think it is a theoretical study, and the feeling is the same as "what will happen beyond the speed of light."
The only highlight of that study was that it explained a brand-new theory to complement the role of dark matter in physics.
However, a theory is just a theory after all. Just like the explanation of dark matter by string theory, the dark matter analysis made by Parsons will have a certain effect in theoretical physics, but has nothing to do with reality.
A physicist can choose which theory to believe at will, but it cannot be proven in a short time.
Now the conference invitation directly states that an experiment related to strong annihilation force will be announced?
Determine a new research direction in physics?
What a temptation this is!
For any physicist, new physics is full of temptation, because a new field represents countless opportunities, countless directions, countless honors, and may even bring new technologies.
In fact, many anti-gravity teams, especially Amrikan's experimental team, are resistant to domestic teams and even Wang Hao.
Without the following explanation of ‘new physics’, many teams would definitely not simply agree to participate in the meeting.
This type of research in a separate academic field is often led by Amerikan and Europe. It is difficult for flower growers to have much appeal if they take the lead.
However, all contradictions are not worth mentioning in the face of new physics.
When they think about brand-new discoveries, brand-new physics, and that they will be made public, many people can't wait.
…
The leaders of the anti-gravity experiment team can be said to be big names in the international physics community.
After they learned about the meeting, they couldn't help but start discussing the issue of strong annihilation power, including Lin Wenji naturally.
Several antigravity research groups at American are related to each other.
Lin Wenji said very excitedly, "I believe very much in the strong annihilation force because my experimental team also made the same discovery."
Although he and Wang Hao had agreed to announce it together at the meeting, he still couldn't wait to say it.
Other experimental teams will naturally inquire about what new discoveries have been made.
At first, Lin Wenji held back and refused to say anything. He was determined to keep it secret, but then he felt the pressure.
The research on anti-gravity is not just an ordinary technology, it is likely to represent the main direction in the future.
When a discovery is made during research and some information is known, it will receive the attention of the national department.
The antigravity team at Los Alamos Laboratory is doing research under the Department of Energy and has a sufficient official background.
After Philip Laurel reported the news, Lin Wenji soon felt the pressure, and special officials came to investigate.
Lin Wenji could only explain their new discovery.
This news was quickly delivered to Philip Rohrer, who was surprised by the new discovery of Lin Wenji's team, "By superposing the material at the edge of the force field, a weak magnetic field reaction is produced?"
"This has something to do with the strong annihilation power..."
Philip Rohrer frowned and thought, "Flower growers must have been studying this for a long time, and there may have been great progress in this area."
"They still want to make the news public, and they definitely want more teams to participate..."
"So, the follow-up theory is much stronger than the application?"
"But even if it's just theoretical research in a new field, we still have to strive for leadership..."
Philip Rohrer is still confident because their research has also made new discoveries, but there has been no breakthrough in research in related directions.
What they found was ‘a constant deflection of the antigravity field under the action of high magnetic fields’.
To put it simply, a stable and continuous antigravity field will be affected by a high magnetic field and cause a shift in the position of the field force.
Although the offset is very weak, and the offset can only be detected under certain high-performance conditions, it is still a new discovery anyway, and may lead to a breakthrough in antigravity research.
"We will make this research public at the meeting, and then we will be able to gain leadership..."
Philip Rohrer thought.
The dominance of an international collaborative research mainly depends on the support of each participant.
As the experimental team of Amrican, it is not difficult to get more support, because many teams are "European and American factions", but there is another key to gaining dominance, which is to be able to lead other teams to achieve breakthroughs together, rather than having no direction.
Let research stagnate.
Philip Rohrer thinks he still has a good chance.
…
When many people in the international physics community began to discuss the antigravity conference and the issue of strong annihilation force, even though the relevant news was limited to antigravity-related research circles, the wind direction in the physics community still changed.
Parsons soon noticed changes. For example, some scholars with whom he occasionally communicated stopped sending him emails, and the emails he sent did not receive a reply.
For another example, no top physicists stand up and claim to support his theory.
Also, Lin Wenji publicly declared that he "supports the strong annihilation force theory," but no top physicist came forward to express his position.
Research in theoretical physics is of course free.
Many physicists have previously expressed support for Parsons' theory, and there are also those who are opposed and dismissive of it. However, the trend of international physics still supports him, and opposing scholars will not come forward.
It's different now.
The very few scholars who came forward to support him had little influence at all. On the contrary, there were some heavyweight physicists who expressed interest in the strong annihilation force.
This change of direction made Parsons feel a little uneasy, but he had no idea what was happening.
…
Saikai University.
Wang Hao still devotes a lot of energy to the research of strong annihilation force. It is difficult to make breakthroughs in theoretical research. Only relevant experimental cooperation can make new progress.
He hopes to create a 'strong annihilation force field', but there are two major problems in starting from the edge of the superimposed force field.
One problem is the intermittent nature of borderline behavior.
The intermittent problem actually lies in the word "communication".
The anti-gravity experiment is actually an 'alternating current gravity' experiment, and the 'communication' of alternating gravity refers to 'alternating current electricity'.
AC electric power has no constant direction and is constantly changing, and constant changes will continuously 'squeeze the microscopic form', thereby creating a constant anti-gravity field.
It is precisely because of the constant changes in the direction of the electric force that the edge effect of the superimposed force field is intermittent.
In addition, the edge effect of the superimposed force field is weak.
To solve the problem of weak edge effects, Wang Hao carefully studied the theoretical basis and believed that we should start from the perspective of magnetic field. However, due to the lack of theory, it is not clear how to start.
If you want to create a truly strong annihilation force field, both problems need to be solved.
Wang Hao did have some ideas, "Intermittently, maybe we can create a DC gravity field?"
He thought and shook his head.
Since DC electricity has no variability, it cannot even create an anti-gravity field, and naturally it is impossible to produce any superimposed force field.
"The edge is weak. We may need to start with the magnetic field problem. Adding a strong magnetic field may have an impact?"
This also requires new experimental designs.
Wang Hao thought and simply established a system mission, with the goal of creating an area of strong annihilation force.
【Task 4】
[Research project name: Creating a strong annihilation force field (difficulty: S+).]
[Inspiration value: 0.]
S+?
really!
Wang Hao thought and shook his head. What he could do in the short term was to start with experiments, because with some discoveries, his inspiration would definitely grow faster.
The Antigravity Behavior Research Center has built new equipment and created a 76% high-intensity triple superposition force field.
The research center conducted experiments that day and made new experimental discoveries.
He Yi concluded, "We have detected stronger magnetic effects in some materials in our experiments."
"The data indicators are different, but one thing is worth noting."
As he spoke, he took out a document and handed it to Wang Hao, "There are three metal materials. Compared with the last data, there is almost no change."
"In other words, a stronger superimposed force field does not make the metal material show a stronger magnetic effect?"
"right!"
He Yi nodded affirmatively.
Wang Hao looked at the documents in his hand, frowned and thought for a long time, and finally breathed out softly, "I understand."
"Under the action of a strong annihilation force, there is a certain upper limit to how particles are affected..."
"This will be a valuable conclusion!"
After he finished speaking, he left the files and started working immediately, "Let's put the experiment here for a while. We also have to prepare for the meeting."
"We must pay attention to this meeting. Our goal is to involve more teams..."