Chapter 298 Major experimental discoveries, preliminary theoretical research completed,
Submit an article to "Nature" magazine!
After you have already done the experiment, you can do the same experiment again and you will soon make progress.
He Yi took the latest report and said with excitement, "Alloy steel is made of metal. After passing through a special thin layer, the highest magnetic field intensity on the surface is 0.2T."
"Metal made of copper, the maximum magnetic field strength is 0.07T."
"At the same time, the experiment conducted follow-up measurements and found that the magnetic field intensity decreased with time, and was likely to show a curve similar to a power-type decline."
"So a conservative estimate is that the instantaneous magnetic field intensity excited by the metal passing through the special thin layer is likely to exceed 1T."
He Yi's voice was obviously very excited.
Everyone in the research team knew that the discovery before them was very important, and it was probably the discovery of a new physical phenomenon.
Wang Hao took the report and took a closer look. He mainly looked at the data records of the magnetic field intensity. Just by glancing at the table, he knew that what He Yi said was correct. The instantaneously excited magnetic field intensity was likely to exceed 1T. However,
This is because the magnetic field strength decreases quickly and the detection is delayed, with the maximum detection being 0.2T.
0.2T, the data is already quite high.
If we make a data comparison, the magnetic field intensity emitted by general permanent magnets, such as alnico magnets and ferrite magnets, is between 0.4 and 0.7 Tesla.
0.2T, which is close to the strength of permanent magnets.
Wang Hao nodded and said, "The focus of our research lies in special thin layers."
"Next, we will continue to experiment and do testing, and strive to get more accurate data."
When it comes to a brand-new experiment and a brand-new discovery has been made, there is definitely a lot of potential that can be tapped.
What's more, research has already found its direction.
Most people in the research center only knew that a new discovery had been made, but they did not know what the new discovery was.
But the core members of the team knew that it must be related to the strong annihilation force.
Wang Hao has been studying strong annihilation force, and the purpose of designing experiments is to find phenomena related to strong annihilation force.
After the new discovery was made, the research center immediately held an internal meeting, attended by the core members of the team, including He Yi, Yan Jing, Xiang Qiansheng and others.
The meeting started with a report on new discoveries, including the experimentally detected flow of gas molecules, the special thin layer distribution in the antigravity region, and other important data.
Of course, the most important thing is the discovery that metallic materials can be excited to produce strong magnetism.
Xiang Qiansheng affirmed with excitement, "The physical properties of this special thin layer are very worthy of study."
"For one thing, it has the effect of attracting gas molecules, hindering the exchange of air between the inside of the antigravity field and the outside."
"To a certain extent, a balance has even been achieved."
"I think this is not a coincidence, nor can it be such a coincidence. We have done experiments before and found that the controlled wind force does not affect the anti-gravity area. Simply put, for air flow, the effect of the anti-gravity field is like
It’s like it doesn’t exist.”
"Coupled with the strong magnetism currently displayed by metal objects, I think the next step in research must be to create special thin layers with higher strength, that is, to create a higher-strength superimposed force field."
Yan Jing also expressed her own opinion, "Now there is a question: why only metal materials show magnetism, while other materials do not have any reaction?"
"Is this an experimental issue, or does it not affect other materials?"
After hearing this, Wang Hao nodded and confirmed Yan Jing's statement, "This point is very important. We are not sure whether it will affect other materials, so we must test it as soon as possible."
The next step is determined.
The research center arranges for rapid detection of substances that pass through special thin layers. Some people proposed to directly place the equipment for detecting magnetic field strength inside the superimposed force field, but it was ultimately rejected because the anti-gravity field would affect the operation of the equipment.
.
In addition, this plan is not easy to implement.
The fastest way now is to place the testing equipment next to the experimental device and make the test directly.
So the experimental team simply built a temporary safe house and placed the detection equipment next to the safe house.
Because the experiment has been carried out many times, safety issues are guaranteed to a certain extent, so Professor Wang Shanqing simply worked directly in the safe room.
The results of the experiment conducted the next day were available.
During the experiment, Professor Wang Shanqing held up a piece of material and shouted excitedly, "27 Gauss!"
"We have data!"
Everyone else looked over immediately.
He Yi simply walked over quickly and asked excitedly, "Do you have the data?"
"27 Gauss!"
There was a researcher participating in the experiment next to him, and he quickly pulled He Yi out, "Director He, pay attention to safety!"
Anti-gravity experiments still have certain dangers. The initial danger comes from coolant and high-voltage current.
Nowadays, the current in experiments is higher, and even a little "leakage" may cause huge risks.
In addition, the danger also adds an 'uncertain high magnetic field and radioactive hazards'.
Materials that pass through the special thin layer must be handled safely because they are not sure whether other changes besides the magnetic field are produced.
For example, radioactivity is one possibility.
Wang Shanqing didn't shout again after shouting. He continued to conduct the test seriously, but his face was obviously very excited.
After the experiment was over, he couldn't wait to report, "Magnetic properties have been detected in several materials."
"Although the magnetism is very weak, some even only a few Gauss, and soon weakens and disappears, it has been determined that all materials will excite magnetic fields, and the magnetic field strengths are different just because of the different properties of the materials."
Wang Hao also took a deep breath after hearing this, with a relaxed smile on his face.
If only metallic materials produce magnetic field characteristics, he feels it would be difficult to explain it theoretically.
However, all materials produce magnetic field properties, which means that the special thin layer is effective for all materials.
Then it makes sense in theory.
Wang Hao immediately made a decision, "Report the new findings to the superiors."
"Also, continue the experiment and get more data. We will then prepare to demonstrate the follow-up experimental work."
…
The response speed of the Science and Technology Department is very fast.
Xu Baogong saw the report of the anti-gravity experiment team and realized that the new discovery might be very important.
He immediately contacted relevant experts and asked them to go to Xihai University to see the specific situation.
The expert team that came to Xihai University consisted of three people, and the leader was an old acquaintance - Academician Wu Hui.
When Wu Hui saw Wang Hao, he immediately smiled bitterly and said, "Wang Hao, I feel like I have been working for you in the past few years, and I have to go here several times every year."
"Who makes you an expert?" Wang Hao joked.
Wu Hui said with a smile, "Don't bury others. Who else can say that he is an expert in anti-gravity research except you?"
He brought the topic to the point, "I saw in your report that when studying the characteristics of the antigravity region, you discovered that materials can excite magnetic fields through the edge region?"
He found it very interesting as he talked, even a little incredible.
Wang Haodao, "Just come with me and see the experiment."
To put it bluntly, this experiment is just to create an anti-gravity field. Because all high-temperature superconducting materials are used, the experiment does not consume much. As long as there is enough electricity and coolant, the experiment can be continued.
Wang Hao simply asked the research center to conduct another experiment.
When it was determined that the magnetic field characteristics were indeed stimulated by the special thin layer of material, the three members of the expert team felt incredible. They discussed in surprise, "This is definitely a major discovery."
"I don't understand the principle at all. Could this design of superimposed positions create a special force field at the edge?"
"This is very likely to be a new breakthrough!"
Several members of the expert group looked at the experimental data and listened to the report.
What is now discovered is that materials can stimulate magnetic field properties by superimposing special thin layers at the edge of the force field.
The strength of magnetic field characteristics is related to the material material.
Iron products exhibit the highest magnetic field intensity, and most metal products also exhibit very high characteristics.
Plastics, wood products, and even liquids can also produce magnetism, but the effect is extremely weak and is basically measured in Gaussians.
In the definition of magnetic field strength, the difference between Gauss (Gs) and Tesla (T) is ten thousand times. The magnetic field strength in Gauss is very weak. For example, the earth's magnetic field strength is about 0.5~0.6 Gauss.
After the experimental report was over, Wu Hui and Wang Hao discussed the experimental findings together, "Academician Wang, what do you think this discovery represents?"
When Wu Hui called him "Academician Wang," he naturally became serious. He came with a work assignment and needed to know some details.
Wang Haodao, "Strong annihilation power."
"Strong annihilation power?" Wu Hui was stunned when he heard this.
In the Antigravity Behavior Research Center, 'strong annihilation force' is not an unfamiliar term. As early as a year or two years ago, Wang Hao had been discussing 'strong annihilation force' with core staff such as He Yi and Xiang Qiansheng. question.
He hopes that others can bring some inspiration so that they can find out the physical phenomena related to the strong annihilation force.
Others are completely different.
This was the first time Wu Hui heard the term 'strong annihilation force'. He said in surprise, "Strong annihilation force. I have read your theory that anti-gravity fields weaken the effect of the annihilation force and reduce the space squeezing effect. "
"So, the strong annihilation force is to increase the space squeezing effect?"
"The special thin layer at the edge of the superimposed force field you are talking about creates an area that increases the space squeezing effect?"
Wang Hao thought about it and said, "To a certain extent, it can be understood this way."
"But in fact, we are not sure that the special thin layer is a strong annihilation force field. This still requires a lot of research."
Wu Hui asked, "Academician Wang, in your opinion, is it a strong annihilation force field? I still believe in your judgment."
"no."
"no?"
Wu Hui was very surprised.
Wang Hao thought about it carefully before saying, "Let's put it this way, in my opinion, the special thin layer is not a strong annihilation force field, but a marginal manifestation of the strong annihilation force field."
"We did not create a strong annihilation field, we just created an edge effect."
"Now we are studying the strong annihilation force field based on this edge effect..."
Wu Hui nodded and said, "Whether it is the strong annihilation force, or the edge effect of the strong annihilation field, your research is related to the strong annihilation force."
Wang Hao smiled and said, "That's right."
"Then I understand."
After several members of the expert team left, Wang Hao began to demonstrate the next experimental work.
Their main direction is to create a stronger superimposed force field to see if they can allow substances to pass through special thin layers to show stronger changes in physical properties.
The experiment collected three directions. One direction is to use the current 50% anti-gravity field equipment as the basis to create four or more force field superposition effects.
In addition, it is to create an enveloping superposition of transverse antigravity fields.
In other words, the transverse antigravity field is surrounded by another large antigravity field.
The advantage of lateral anti-gravity fields is their high strength. They can create an anti-gravity field with a strength exceeding 95%, and then surrounded by other force fields, the superimposed effect is likely to be better.
The third method is to create a superposition of antigravity fields of different strengths, and the experiment is relatively simple.
All three experiments need to be carried out to obtain a series of data. Even if more changes in the physical properties of the material cannot be found, the value of the magnetic field intensity excited by the same material can be used to comparatively study the superposition of the antigravity field intensity.
relationship between.
Every type of research requires a large amount of experimental funding.
In addition, new equipment also needs to be manufactured, and new equipment needs to be demonstrated, which will take more time.
…
As for the research center, it is impossible to make more discoveries in a short time.
Wang Hao returned to the Mason Number Laboratory and seriously thought about theoretical issues. When new physical phenomena were discovered, the study of their theoretical basis was very important.
For example, in research related to superconductivity, the theoretical foundation must be improved before technology can achieve a leap-forward breakthrough.
The only thing Wang Hao knows now is that the special thin layer at the edge of the superimposed force field is directly related to the strong annihilation force.
But why does superimposing the edge of the force field produce a special thin layer?
The physical principles definitely need to be explored.
This is research content related to experiments.
On the other hand, the effect of strong annihilation force has made great progress.
In his research on denying dark matter, Wang Hao already has a clear direction, that is, in a strong annihilation field environment, the external physical properties of particles or matter will be weakened.
"Now we have discovered the edge effect of strong annihilation force, which will stimulate the magnetism of matter..."
"Then, it is similar to the elasticity problem. Sudden extrusion will cause elastic deformation effects."
"When this extrusion force disappears, the deformation will naturally recover, and the recovery process produces an external effect, that is, a magnetic field is generated."
"If the squeeze is continued and exceeds a certain intensity, the elastic deformation will turn into inelastic deformation, completely changing the physical properties of the material..."
"The final change of particles is the weakening of physical properties?"
Wang Hao thought carefully.
He felt that his idea was correct. Particles would be affected by the annihilation force. A temporary increase in the annihilation force would have an impact on the interaction between the nucleus and electrons.
When the effect of the strong annihilation force disappears, the influence will naturally recover. During the process, the changes inside the atoms are likely to emit magnetic field effects.
If the strong annihilation force continues and its intensity exceeds a certain limit, it is likely to bring "irreversible" changes to the atoms.
"The annihilation force increases, the activity of particles increases, and at the same time, the intensity of the internal force field increases, and the properties of the atoms will become more stable, which also shows that the external physical properties are weakened..."
Wang Hao not only thought about it, but also carried out certain mathematical construction work, that is, based on the annihilation theory, he constructed the changes brought about by the strong annihilation force on the particles.
He only gave a brief description, and then found Helen and Chen Mengmeng and talked about his thoughts, "I have a new idea about the problem you encountered."
"The first manifestation of the impact of the strong annihilation force on particles is likely to be the interaction between the nucleus and electrons, rather than just the changes inside the nucleus or smaller particles."
"In addition, the weakening of particle properties is probably related to the stable structure of particles in a strong annihilation force environment..."
"Also, when the particles are stable to a certain stage, they may be related to the strong annihilation force. However, this is just my personal idea and may not be accurate."
Wang Hao explained his thoughts in a guiding manner.
Some of the contents are true, and some are still in the "idea" stage, but for the preliminary research conducted by Helen and Chen Mengmeng, it is completely sufficient.
Previous research by Helen and Chen Mengmeng had a clear direction, but lacked the process of 'sexual change'.
In other words, their arguments lack process.
Now from the perspective of the interaction between the nucleus and electrons, the interaction process can be described and deduced mathematically.
Female researchers are also very crazy when they invest in research.
After finding a clear direction and method, Helen and Chen Mengmeng stayed in the workroom day and night, discussing and recording research, and the research progress also improved rapidly.
Two weeks later, Helen and Chen Mengmeng handed the summarized research paper to Wang Hao.
Wang Hao spent more than two hours watching it carefully from beginning to end, and couldn't help but praise, "It's so exciting!"
"Initially, it was demonstrated that the interaction between atomic nuclei and electrons changes under the action of strong annihilation force, and it was even deduced that magnetic field characteristics may be produced?"
Wang Hao did not expect this.
He didn't even mention the discovery that superimposing thin layers at the edge of a force field causes matter to generate a magnetic field. As a result, Helen and Chen Mengmeng actually deduced it by relying on arguments?
Chen Mengmeng asked with some expectation, "Mr. Wang, do you think our conclusion is correct? Helen and I discussed it for a long time and both felt that strong annihilation force is likely to cause particles to produce magnetic field characteristics externally."
Wang Hao did not answer directly, but gave a thumbs up to the two of them.
The following arguments are all based around the argument that strong annihilation force will make the particles internally stable and weaken their external behavior.
For example, the strong annihilation force can enhance the strong force and at the same time make protons and neutrons combine more closely.
For example, the external 'radioactive' loss of stable particles will be reduced.
‘Radioactivity’ does not refer to decay, but to externally scattered light waves, as well as some external physical properties.
etc.
Wang Hao combed through the mathematical content in the research demonstration from beginning to end, pointed out a few minor problems, and then asked them to go back and make some simple modifications.
You can then submit your article.
The name of this paper is a big title, it is simply called "Strong Annihilation Force", and it is divided into two parts as the doctoral thesis of Helen and Chen Mengmeng.
The main research paper was submitted directly, and the authors were Helen and Chen Mengmeng, who were co-authors.
Wang Hao is the corresponding author.
Because it was a theoretical research paper on physics, he subconsciously wanted to submit it to Science magazine, and then he thought of what happened last time.
"Science" published two papers related to dark matter together, and the contents of the two papers are completely opposite.
Wang Hao immediately made a decision, directly blacklisted the magazine "Science" and submitted the paper to the magazine "Nature".
"Nature" magazine has also cooperated in the past.
As for reviewing or not reviewing, since it is a student's paper, Wang Hao thinks normal review is fine. After all, the paper is not in a hurry to be published. It is acceptable to publish it one month or two months apart.