Chapter 219: Negotiations on Technology Exchange, the Reason for Picking a Fight, New Mathematical Direction!

Chapter 219 Technology exchange negotiation, the principle of finding someone to fight--new mathematical direction!

Los Alamos National Laboratory is one of the large laboratories affiliated with the American Department of Energy.

The laboratory left a strong mark in history due to its participation in the Manhattan Project, and the initial reason for its establishment was also the research of nuclear weapons.

At that time, the primary research on nuclear weapons carried out in several universities encountered difficulties in resource allocation, and there was an urgent need to establish a laboratory to conduct this research alone.

Later, the tremendous power displayed by nuclear weapons aroused panic and concern around the world.

As one of the important participants in the research, the mysterious Alamos Laboratory was slowly revealed. It is no longer a secret that the laboratory is involved in the development of high-end weapons.

With the continuous development of the times, Alamos Laboratory has gradually lost its former glory.

Although it is still one of the large laboratories under the American Department of Energy, in the past two decades, the funding of the Alamos Laboratory has been continuously reduced, and various internal problems have arisen. Later, even the management organization was transferred from the University of California, It became the improvised Los Alamos Corporation.

In the process of laboratory changes, even internal scientific researchers were affected.

For example, they can no longer get the high pension insurance provided by the University of California, but can only get the basic insurance stipulated in the Tax Law, and the insurance amount has also plummeted.

Philip Rohrer's working career seems to have declined with the decline of the laboratory.

As early as twenty years ago, he became a core researcher of large-scale projects and participated in the very important exchange gravity experiment, that is, the research of anti-gravity technology.

At that time, he was only thirty years old.

Twenty years later, his position has not been promoted, but physicists with higher positions and more respect than him in the same field have either retired or left the laboratory.

Therefore, he became the real "number one" in the research project of communicating gravity.

The AC Gravity Experiment was previously sealed. Philip Rohrer thought that he would survive until retirement and his career would not improve. He did not expect that such a change would occur--

The Exchange Gravity Project is being taken seriously again!

The experimental data was dropped again, and the project team was reorganized. It is said that the Ministry of Energy, which is directly under the superior government, also decided to allocate part of the funds to continue investing in the exchange gravity project.

In the laboratory, Philip Rohrer, who knew the project best, became the project leader.

‘It is said’ still only exists in the hearsay.

Thomas Mason of the Alamos Laboratory told Philip Laurel about the news, "The project may be able to get new funding, but it depends on the situation."

"There are many debates above, and the key lies in whether there can be visible progress."

"You need to prepare a report for the hearing, a report on the project, the technology."

"The Ministry of Energy wants to know the specifics of the project, research and development prospects, and issues of technology exchange with China."

Philippe Rohrer knew his opportunity had come.

The key now is to let the Department of Energy know and communicate the importance of gravity research projects.

A week later.

Philip Rohrer participated in the internal hearing and introduced the AC gravity experimental project in detail. "This is the only anti-gravity phenomenon that can be seen with one's own eyes."

"Previous projects have increased the anti-gravity value to 34%. In other words, in the AC gravity field, matter will lose 34% of its weight."

"We believe that it is impossible to increase the value by more than 40% with continued research."

“There’s a critical line around there!”

Philip Rohrer said with certainty, "Mr. Loper thinks so, and other people involved also think so. We analyzed it theoretically and conducted several large-scale experiments in succession, and the conclusions we reached are all the same."

"The closer the anti-gravity strength is to 40%, the harder it is to increase it."

"Just like there is a limit to the speed of light, a new physical phenomenon is likely to have an upper limit."

"This is also the reason why we decided to seal the project later. Research consumes a lot of money, but it is very impractical, and there are no new discoveries."

"But now, it's different."

Philip Rohrer waved his arms as if giving an inspiring speech, "We still don't know what the AC gravity field is, but the latest research in the field of superconductivity tells us that research is related to understanding the superconducting mechanism."

"The mechanism of superconductivity is not just a theoretical study, it involves the most important technology that will determine the future."

"I believe that the importance of superconducting technology does not need to be repeated. In the future, whoever can master the most cutting-edge technology in the field of superconducting will be able to stand at the forefront of science and technology. We must continue to carry out exchange gravity projects to... "

Philip Rohrer gave a rousing speech.

As a respected scientist who was also directly involved in the AC Gravity Project, his words are persuasive.

Those present were convinced of the importance of the Exchange Gravity project and subsequently asked about technology exchange.

"This is necessary."

Philip Rohrer said seriously, "Although I am sure that we are far ahead in the study of AC gravity field strength, their main direction is to use AC gravity experiments to analyze the theoretical mechanism of superconductivity."

"We are completely behind in the direction of combining AC gravity experiment with superconductivity research."

"Even if some basic theories are made public, it can be seen that the research results published by Dr. Wang Hao do not have any information related to AC gravity experiment."

"What we need is that information. As long as we can grasp the core content, with our scientific research capabilities, we can quickly catch up and surpass it."

"I believe that no one wants to see that we will lag behind the Chinese team in some research."

"This is incredible and unacceptable!"

"But we have fallen behind, so we have to catch up quickly by exchanging technology."

...

Philip Rohrer's report was very successful, making the people present realize that they are indeed far behind the Chinese team in the theoretical research of superconductivity.

In fact, there is no need to say that Wang Hao's "superconductivity law" shocked the world, and many people have known it for a long time, but they did not expect that the AC gravity research project is so closely related to superconductivity research.

Although anti-gravity technology is very attractive, it is too far from reality. In particular, Philippe Rohrer also emphasized that 40% is the critical line, and the technology seems to be a bit useless. Superconducting technology represents the most advanced technology, represents the initiative of future technology, and also represents huge benefits.

So the Ministry of Energy quickly made a decision to continue communicating with China to strive to achieve a certain degree of "technology exchange".

The communication at the top ended quickly.

The contact at the top does not need to discuss detailed issues, just consider whether to agree or not.

The National Science and Technology Bureau held an internal meeting and continuously discussed it for nearly a week, discussing relevant matters every day, and finally decided to agree to the technology exchange requirements of the American side.

Then there was the contact of the science and technology department.

The one who came forward to communicate with Philippe Rohrer's team about the technology exchange issue was the National Research Center for Condensed Matter Physics under the Academy of Sciences. In name, it was "the National Research Center for Condensed Matter Physics is one of the main participants in the project."

This information was leaked, but it made Philippe Rohrer's team believe it.

The physics laboratory of Xihai University is not famous at all, and it is not a confidential research institution. In order to achieve results in similar research, a huge amount of research funds must be invested, and it is normal for a large research center to participate.

The National Research Center for Condensed Matter Physics is a research institution that has only been established for more than ten years, but it has invested a lot in related areas, and there are academicians from the Institute of Physics as the head, which naturally gives people a different feeling.

The place where the two sides contacted and negotiated was also at the National Research Center for Condensed Matter Physics.

Negotiations will definitely take a long time.

The two sides need to test each other's experimental progress and the key technologies they have mastered. Even if the information is almost known, they must negotiate on the exchanged technologies and discuss what kind of theories and technologies can be made public.

And so on.

This is not something that can be solved in one or two days.

…

Xihai University.

Wang Hao made a detailed report on the importance of exchanging theories and technologies related to gravity experiments, so he did not need to come forward for the negotiation of technology exchange.

There is a professional team in charge of this, and he only needs to wait for the results.

For similar matters, the relevant scientific researchers will not come forward, because often a sentence or a few words may reveal key information.

Wang Hao continued to lead a normal life. He paid attention to the rocket separation calculation project and took time to guide students. He hoped that several students in the Department of Mathematics could also be responsible for some of the calculation work.

However, the students' level was limited. The second-year graduate students had just laid a good foundation and had no experience in participating in the project.

So Wang Hao found a lot of information and gave each student a copy, including two professional books, one of which was called "Solution and Analysis of Twenty-one Types of Partial Differential Equations" and the other was "Higher-order Algebraic Equations".

"I hope each of you can master and understand at least one of these two books."

"Calculation is the foundation of mathematical research."

"It is very important to master calculation in one direction when working in the field of mathematics."

Wang Hao said very seriously.

Several students took the books and found that one of the authors was Wang Hao and Wang Huanxin.

Author, Wang Hao?

"Teacher Wang, is this your book?" Xu Jie asked in surprise.

"Yes."

Wang Hao nodded calmly, "It has just been published. Professor Wang Huanxin from the School of Science helped to organize it. I took a rough look and there is no problem."

"Solution and analysis of 21 types of partial differential equations..."

Chen Mengmeng read the name of the book and looked at Wang Hao with a strange look.

The other students' eyes were similar.

Twenty-one types.

They naturally understand partial differential equations. Often, the solution and analysis of a partial differential equation requires several scholars to study together.

On large academic paper websites, you can find research papers on the solution of a single type of partial differential equation, and papers with high gold content often have several authors and take a long time to research.

Wang Hao has researched the solution and analysis of 21 types of partial differential equations. If each one is taken out separately, it is estimated that it can be published in SCI, right?

This is too abnormal!

They didn't want to use pervert to describe Wang Hao, but they really couldn't think of other words.

"No wonder Teacher Wang can complete the NS equation argument!"

"Regarding the understanding of solving partial differential equations, I guess Teacher Wang said that he is second, and no one dares to say that he is first!"

"In the study of partial differential equations, I only obey Teacher Wang..."

Wang Hao ignored Xue Xue's weird look and continued, "You can choose one of these two books to read intensively and understand. In addition, there are several other methods, and you should master at least one of them."

He distributed information to everyone again.

These methods include "Numerical Approximation Problems of Functions", "Solution of Matrix Eigenvalues", "Optimization Calculation Problems" and so on.

Wang Hao does not require everyone to be proficient in all methods, but to be proficient in at least one of them.

If you can be proficient in a method of computational mathematics, you will have a sufficient foundation for professional research, and your master's thesis will be at a higher level.

He does not require students to be like Qiu Hui'an and work hard to conjecture the world, but at least the content of the master's thesis should not be too high-profile.

In a relatively relaxed life, Wang Hao is also looking forward to technology exchanges in gravity research, because he has no follow-up ideas for research at the moment.

Without ideas, the next step of research cannot be carried out.

If we can get inspiration from technology exchange, we can proceed to the next step of research, the basic theory of superconductivity can continue to be improved, and the research on AC gravity can also be improved.

This is worth looking forward to.

At the same time, Wang Hao is also thinking about research. His paper "Superconducting Semi-Topology - New Geometry" has been published in the "Journal of Mathematics" under the Academy of Sciences.

The paper is purely mathematical, about the definition, properties, and research progress of Wang's geometry.

Wang Hao also has an idea when it comes to the study of communicative gravity, which is to use mathematics combined with experiments to find directions for follow-up research, rather than purely doing experimental analysis to construct new geometries.

However, it is very difficult to combine mathematical research with experiments, because even new geometry-related topology research deviates somewhat from topology.

That’s why Wang Hao called it ‘semi-topology’.

"If we can use a specific equation to relate new geometric figures in the way of algebraic geometry, then we can truly express it mathematically, instead of relying on experiments to explore and use definitions to express it."

Wang Hao felt that this was the right direction. He hoped to establish a direct connection between equations and graphics, but this involved a topological problem.

This topological problem also deviates from mainstream topology, making research in the field of mathematics somewhat embarrassing.

Wang Hao thought seriously. He noticed Zhang Zhiqiang, who was busy working on the computer, so he walked over and asked, "Brother Zhang, let me ask you a question."

"You ask?"

"You design a house that meets your actual needs, but find that the house deviates from the mainstream route and cannot be applied to the construction methods of other houses. At this time, what will you do?"

Faced with this strange question, Zhang Zhiqiang was silent for a moment and tentatively replied, "How about studying other construction methods of houses and then modifying them? Anyway, it can be used if it meets the actual needs."

Wang Hao continued to ask, "What if after the change, demand will be affected?"

"this……"

Zhang Zhiqiang said hesitantly, "How about you get used to it? For example, I originally wanted to buy a 140-square-meter flat floor, thinking that the area inside would be quite large. But now I discovered that, excluding the stalls and walls, there was only one room inside. One hundred square meters.”

"What can I do? I can only accept it slowly..."

His voice was full of sadness as he spoke.

Zhu Ping's loud voice suddenly came from the door, "What else are you getting used to!"

"I can design my own house, so I can build my own, regardless of whether it is mainstream or not!"

"If anyone says that my construction is not good, I will have to fight with him!"

Zhang Zhiqiang curled his lips and muttered in a low voice, "What the hell is this..."

Wang Hao frowned and thought for a moment, then opened his eyes wide and gave Zhu Ping a thumbs up, "Sister Zhu, that makes sense!"

Zhang Zhiqiang stared blankly, "She said she was looking for someone to fight? Does that make sense?"

Wang Hao nodded affirmatively, "That makes sense!"

Zhu Ping suddenly smiled brightly and raised her eyebrows at Zhang Zhiqiang, as if to say, "Did you see, Wang Hao said I have a point?"

Zhang Zhiqiang had the urge to vomit blood when he was singled out. It was just that he was excluded from a multi-million dollar project. Even what Zhu Ping said became more reasonable than him?

The sad figure of a lonely man could not help but appear in his mind...

The wind is rustling~~

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