From university lecturer to chief academician Chapter 382: Results released, international excitement, embarrassing Kubo, the huge significance of the first-order energy wave!
Chapter 382: Results released, international excitement, embarrassing Kubo, the huge significance of the first-order energy wave!
The previous discovery of first-order iron elements was considered a breakthrough in the study of strong annihilation forces and would bring about revolutionary progress in materials science.
At the same time, first-order iron elements also have huge scientific research potential.
Because of its extraordinary significance, one gram of first-order iron material can be sold for US$100 million, and many institutions are vying to buy it, just to not fall behind others in research on top materials technology and other fields.
Now the discovery of first-order green light is also of great significance.
The first is the research in the direction of annihilation physics, which is a huge breakthrough. It can be said to directly prove that "matter and energy will change their behavior in the context of enhanced annihilation force."
It's a bit like the natural evolution of organisms to adapt to the environment. The difference is the change of matter and energy under the enhanced and squeezing effect of space.
In addition, the first-order green light also has great scientific research and technological value. Compared with the first-order iron element, the first-order green light is of extraordinary value to astronomy and physics. Astrophysics mostly relies on astronomical observations or receiving signals from the universe.
carried out in a manner.
First-order green light is an energy wave and a light wave. Its existence itself is of great significance to the study of physics.
"The discovery of first-order green light has as much influence on the world of physics as the first-order iron element..."
Wang Hao said with some expectation.
Subsequent research on the theory of cosmic expansion is also based on the existence of first-order energy waves. Related theoretical research is also a major achievement of the annihilation theory.
The former is a major experimental discovery;
The latter is a theoretical study based on experiments.
"Coupled with the results from the Institute of Materials Science, the first issue of "Annihilation Theory and Physics" should be very influential!"
Wang Hao said to Shi Honglei with some expectation.
Shi Honglei's face also showed an expectant smile. He serves as the editor-in-chief of "Annihilation Theory and Physics". He also knows that "Annihilation Theory and Physics" is different from other new journals. It has the support of three top scientific research institutions that have attracted much attention in the world. The new journal
It is definitely a sprint to the top international academic journals.
Now we have to release the first issue of content. A good start is half the success. The first issue of content must be done well.
Under the attention of many international scholars, if the content of the first issue is mediocre, the subsequent attention may plummet. Fortunately, there are three heavyweight research results, which serve as the core and are coupled with other research.
The quality of the journal content is enough to reach the top of the academic field.
The latest content of the Superconducting Materials Research Center will also receive a lot of attention. They have developed a copper-based superconducting material with a high electron carrying rate and a critical temperature of 171K. It can replace the original 160K iron-based material and be directly put into industry.
Using.
This new superconducting material will undoubtedly create huge economic value....
The new issue of "Annihilation Theory and Physics" will be officially released early next month, and I have been waiting for it until now.
As the time approaches, many people begin to look forward to the content of the new journal, and many scholars are constantly discussing what kind of research results will be released in the first issue.
"That's inevitable!"
"'Annihilation Theory and Physics' was established with the support of Academician Wang. The three supporting institutions are all directly related to Academician Wang. There will definitely be new results in annihilation physics and superconducting materials!"
"I have already ordered in advance and am waiting for the new issue to be released." "Me too..."
Many people in the international academic community are paying attention to the news of "Annihilation Theory and Physics", but they have not yet waited for the new issue. What they are waiting for is the information on the results of the International Annihilation Theory Organization.
That was published in the magazine "Science" and was directly related to the research on first-order iron elements and strong annihilation force. The name of the result paper is "Diamagnetization Properties of First-Order Iron Materials".
"Science" magazine not only published the paper in "Science-Physics", but also published news in the main journal, "International Annihilation Physics Organization and Argonne Experiment
In cooperation with the laboratory, we studied the basic properties of first-order iron elements and found that first-order iron materials will not undergo magnetization reactions under the action of a strong annihilation force field."
"This is a major breakthrough in the research of first-order iron materials. It not only has stronger physical properties than conventional iron, but also has magical anti-magnetization properties."
"Previous research on strong annihilation force fields found that any material, even liquids and gases, will produce magnetization reactions under the action of field forces..."
The follow-up content of the introduction to the experimental findings is various, including interviews with Empoli Kubo, chairman of the International Annihilation Organization, and Christopher Johnson, leader of the Argonne National Laboratory's first-order iron materials project team.
Empoli-Cubo said, "Our research team conducted detailed demonstrations and finally decided to conduct a strong annihilation force magnetization reaction experiment."
"It takes a lot of courage."
"The material we obtained is only a tenth of a gram. If there is any problem, our research will be interrupted."
"In the end, we believed in our own judgment and found in experiments that first-order iron materials have magical anti-magnetization properties."
"We believe that the electron transition of the atoms inside the first-order iron material has reached a new stage. The electrons can no longer jump inward and have reached a balance with the previous force of the atomic nucleus. Because of this, it will no longer be subject to strong force.
The effect of annihilation force...""
Christopher Johnson said, "We are conducting research on first-order iron materials and cooperating with the International Annihilation Theory Organization in the hope of discovering its annihilation physical properties."
"The antimagnetization properties of first-order iron materials explain many problems. This discovery is very important for the annihilation theory and the study of first-order iron materials."
Christopher Johnson's statement was still conservative. He did not talk about what the experimental findings specifically demonstrated, but only emphasized the importance of the experimental findings.
The experimental findings are indeed very important.
When "Science" magazine published the experimental results, it immediately attracted the attention of the international physics community. Just like Christopher's statement, the experimental findings explained many problems.
For the International Annihilation Theory Organization, which can create a strong annihilation force field, it is definitely very easy to conduct experiments. It is just to put the first-order iron material in the strong annihilation force field and then take it out for immediate detection.
But small experiments represent big results.
Other ordinary materials will produce magnetization reactions, but first-order iron materials have no magnetization reaction, which of course has very significant research potential.
Empoli-Cooper's "principle of diamagnetization of first-order iron materials and the conclusion that they will not be affected by strong annihilation forces" has also aroused a lot of discussion in the physics community.
It is difficult for ordinary people or scholars outside the field to pay attention to professional academic issues. More people are paying attention to the significance of the "International Annihilation Theory Organization's release of new results" itself.
All the previous work done by the International Annihilation Theory Organization can be described in one sentence as 'verifying the experimental results released by the Antigravity Behavior Research Center'. There is no innovation in the research experiments.
Now there is finally an innovative research, and the experimental results are of great significance. Many people have given positive comments, "The International Annihilation Theory Organization has finally played a role!"
"This is the first experimental discovery of great significance, and there will definitely be more in the future."
"Even if there is a technical gap with the Antigravity Behavior Research Center, we can still create a strong annihilation field, and the technical gap will continue to narrow in the future..."
"The current experimental findings are very important and represent the capabilities of the International Annihilation Theory Organization. They have the top scientific research team and can know through analysis that the first-order iron element is likely to have anti-magnetization properties, which shows that they have a strong understanding of the annihilation theory.
..."
A lot of discussion and admiration made Empoli-Cubo very satisfied. He became the focus of public opinion and became the target of reporters vying to interview him.
Empoli-Cubo asked his staff to arrange the interview, and then sat in the office and began to check the emails written to himself.
Many scholars in the physics community sent congratulatory emails, and some
The other one asked about the experimental question of 'diamagnetization properties', which made Empoli and Kubo feel like they were top physicists.
In fact, he was just a 'semi-administrator', and his professional field was not up to the level at all. At this moment, Empoli-Cubo felt that his life had reached its peak... The next moment, there was a knock on the door.
.
"Enter!"
Empoli-Cubo was immersed in the pleasure of reading the congratulatory email when he heard the person coming in say, "Mr. Cooper, take a look at "Annihilation Theory and Physics", the first issue has been released!"
""Annihilation Theory and Physics"? What is that?"
Empoli-Cubo was confused for a moment, and it took him a long time to realize, "Bell, are you talking about the newly launched magazine?"
"Yes, a new issue has been released. There are two new results in it, which are directly related to our research."
"New results?"
Seeing the anxious look on Bell's face, Empoli-Cubo felt something was wrong, and he immediately logged into another email address.
That mailbox has orders for the new issue of "Annihilation Theory and Physics".
After downloading the content of "Annihilation Theory and Physics", Empoli-Cubo immediately received news of the experimental results - "First-order energy waves discovered by stimulated radiation experiment".
Empoli-Kubo suddenly opened his mouth in surprise, "First-order energy wave? Is it similar to first-order iron material? It was discovered through experiments?"
"What exactly?"
Bell said, "We have already studied it. What is mentioned above is a brand new energy wave. The frequency and wavelength are in the green light range, but the energy intensity is higher. More importantly, this first-order energy wave is resistant to annihilation.
characteristic......""
He continued, "In addition, there is another article, the latter one, which is a theoretical study based on the diamagnetization properties of first-order iron materials and the discovery of first-order energy waves. It can be regarded as the annihilation theory of cosmic expansion.
"Follow-up research." "The focus is on the experiment of antimagnetization properties of first-order iron materials. The content they released only briefly mentions this, and explains that first-order iron materials only do not produce magnetization reactions in conventional strong annihilation force fields, but in
In a higher intensity annihilation force field, magnetization reaction will still occur."
After Bell finished explaining, Empoli-Cubo was still a little confused and asked, "So, they also discovered the antimagnetization properties of first-order iron materials?"
He then smiled and said, "That's such a coincidence, but we should have published it first, right?"
Bell didn't look happy at all. He tugged at the corner of his mouth and reminded, "Mr. Cooper, they discovered the first-order energy wave, and they also did theoretical research based on the two discoveries."
·:.-.-
"First-order energy waves are originally research based on the anti-magnetization properties of first-order iron materials, and they also made the next step of theoretical research based on the two experimental findings. In other words...
"
"They may have discovered the antimagnetization properties of first-order iron materials a long time ago, but they just did not publish the results."
"Now that the results have been released, the relevant content has only been briefly passed..." "And we have released them as the main results."
Now Empoli-Cubo understood. His smile turned into a blank look, and his expression simply froze on his face.
It took a long time.
Empoli-Cubo finally reacted. He immediately shouted, "Immediately reject all interviews and say that we are conducting a major experiment."
"If there is a call from the Argonne Laboratory, find an excuse to reject it and don't let Christopher contact me..."
"Also, let everyone in the organization stop accepting any interviews!"
.....at the same time.
With the release of the first issue of "Annihilation Theory and Physics", the international physics community and public opinion quickly became excited.
The physics community is paying attention to "Annihilation Theory and Physics".
Many scholars are looking forward to the content of the first issue. Although they are psychologically prepared for it, they did not expect that such an important issue will be released.
Results.
First-order energy wave!
This discovery is really amazing.
If coupled with the discovery of first-order iron elements, it directly shows that matter and energy will change as the annihilation force increases.
The "Cosmic Inflation Theory" of the annihilation theory has basic support.
At the same time, the discovery of first-order energy waves is directly related to research in many fields of astrophysics, especially the research on some mysterious stars and nebulae, which can be related to the 'N-order energy matter' mentioned in the "Cosmic Expansion Theory".
Follow-up research on "Cosmic Inflation" elaborated on the development process of the universe based on the background of the increasing annihilation force of the universe.
So far, "The Theory of Cosmic Inflation" has become a complete theory.
The famous German astrophysicist Mazenia-Schulz commented, "The discovery of first-order energy waves has extraordinary significance for astrophysics."
"In the process of studying celestial bodies in the universe, we will discover many mysterious phenomena that cannot be explained by existing physics."
"The discovery of first-order energy waves and first-order iron elements allows us to think from another angle. For example, we can assume that all waves and cosmic rays have first-order, second-order, or N-order. They are different from conventional
Waves have similar properties to cosmic rays, but have higher energy and other properties..."
"These characteristics can be discovered by studying first-order energy waves, so that we can explain more astronomical phenomena..."
"The research of Wang Hao, Paul, Helen and others is also very important. They improved the "Cosmic Inflation Theory" based on experimental findings."
"Before, the "Cosmic Inflation Theory" was just a theory, but now, many people have the same view as me, and think it is more credible than the Big Bang Theory, because it is not only a theory, but also has experimental support..."
"This has subversive significance and value for the development of astrophysics!"