Research starts with PhD students

Chapter 253 Nobel Prize in Physics, the most famous? What's the point!
The gravity manufacturing technology corresponding to the last decomposition has been accepted by the aviation group, the space agency and the military, and a special project team has been set up to carry out technology application research.

For example, the gravity aircraft is a project team jointly established by the aviation group and the military.

Many experiments and applied research are also based on its technology, and many fixed-parameter devices have been manufactured.

The so-called fixed parameter equipment is built with physical materials, which means that the parameters cannot be adjusted.

These devices can only be used for applications and research with the corresponding parameters solved previously.

The core components of the gravity aircraft exposed in the public opinion use fixed-parameter equipment. One advantage of fixed-parameter equipment is that it is very safe and almost no problems will occur.

If the new solution is feasible, its application range may be wider because the gravitational strength it produces is slightly lower than that of the Earth's gravity. Proposed applications and research plans will definitely use the new parameter solution.

Then many fixed parameter devices will be eliminated.

These devices are very expensive because they use physical materials and the cost of modification is also very high.

“It’s not just research into applied science and technology.”

Xue Fengchao followed up by saying, “The Aviation Corporation and the Space Administration have planned to jointly build a large gravitational field.”

"The initial investment in this plan is 50 billion yuan, which will mainly be used for technical research to expand the scope of gravity applications."

“Maybe they should consider changing it.”

Xue Fengchao is a researcher assigned by the Department of Science and Technology and also a representative of the department's group. He knows a lot of information.

The members of the experimental group all expressed their feelings and kept talking about the troubles they had with the fast research speed. In fact, a fast research speed is of course good, but as for the losses in other inputs, in comparison, they are simply insignificant.

They were all in a good mood and were very much looking forward to the experiment.

After the news was confirmed, representatives from various departments and institutions also passed the news back, asking those plans that were about to be put into manufacturing to be put on hold.

Many departments and institutions also learned the news. The next day, Mr. Wang from the Science and Technology Department led a team to the Theoretical Center.

The experiment preparation speed is very fast.

Today's experimental group is no longer the same as before. The number of experimental personnel and equipment has increased several times, and the detection devices are also very advanced. Basic parameter adjustment experiments do not require too much preparation time, and most of the work is just operation and debugging of the main equipment.

Many advanced equipment have also been introduced into the laboratory.

For example, gravity measurement equipment is used to directly measure the numerical value of gravitational field strength.

During the experiment, the gravity measurement equipment can directly display the value of the gravity intensity generated.

This value is evaluated in units of Earth's gravity.

After Professor Wang arrived at the Theoretical Center, he immediately met Zhang Shuo and asked questions about the new experiment.

“We have a set of parameters to measure.”

Zhang Shuo was very calm when talking about the experiment. "It's just a routine experiment. It would be great if it succeeds. Then we have mastered a new set of gravity manufacturing parameters."

Teacher Wang tilted his head, frowned, and asked, "It's a new parameter set, right?"

Zhang Shuo nodded.

Teacher Wang couldn't help but take a deep breath. Even though he already knew the news, he was still surprised to get the confirmation.

Gravity manufacturing technology is no longer a secret among senior officials. Although Mr. Wang does not understand the theoretical content, he knows how to implement it.

Regarding gravity manufacturing technology, Professor Wang has discussed it with several experts and scholars, and what he heard most was that "the relationship model between electromagnetic force and gravity is very complicated."

"If we want to solve it, we need a lot of basic experiments to improve the parameters, and the investment in basic experiments is huge, but it may not be useful."

“Even if you have perfect parameters and find a solution by chance, it may not be able to be put into practice. In fact, the probability is very small.”

This is like a straight line. Only when a single coordinate takes the value of 0~1 does it have scientific and technological application value.

If you randomly find a point on a straight line, the probability of taking a value between 0 and 1 is naturally very low.

In other words, a set of solutions found by luck with the support of a large number of basic experiments is highly likely to have no application value.

This is why Teacher Wang was surprised.

Most scholars who understand the basics of gravity-making technology believe that a second applicable solution will not be found within several years or even decades.

result……

How long has it been since?

Zhang Shuo found another set of applicable solutions at a speed that was incomprehensible.

Teacher Wang also knew a piece of news that a large scientific research team was formed in Europe to study gravity manufacturing technology. Its name was "European Joint Gravitational Organization", or "Joint Gravitational Group" for short.

The Joint Gravity Group is very large, with hundreds of scientists and over a thousand engineers participating in its inception. The initial scientific research funds raised amounted to 30 billion euros, and a large amount of funds were invested in basic experiments.

Last month, the Joint Gravity Group achieved ideal research results. Their theoretical group relied on basic experiments to find a set of model parameter solutions, and they also made the results public.

This is mainly because the model solutions they developed cannot be applied or even tested.

Among its parameter requirements, the stable magnetic field strength is as high as 18T.

The activity level of the single element lithium in the medium material is also very high, specifically the lithium element must be heated to above 20 million degrees Celsius.

This is obviously impossible.

After being surprised, Teacher Wang was deeply impressed by Zhang Shuo's genius and also showed some concern for the parameters of the new experiment.

0.89 times the Earth's gravity.

This is the most important parameter. If its value is smaller than the Earth's gravity and close to 90% of the Earth's gravity, the scope of application can be expanded.

In the manufacture of gravity aircraft, parameters higher than the Earth's gravity are of course better, and the gravity strength can be used directly to provide its own acceleration. However, in applications in other fields, values ​​higher than the Earth's gravity are not good, and the closer to the Earth's gravity, the wider the scope of application.

The most basic thing is to create a space that simulates the weightlessness of the universe.

In addition, the demand for new parameter solution is reduced. The demand for magnetic field strength is one aspect, but more importantly, the demand for the activity of medium material particles is reduced, which greatly reduces the difficulty of technical implementation.

Professor Wang and Zhang Shuo chatted about the new rhythm, and then asked a very interesting question, "Based on the two solutions now, can we study a technology to adjust the intensity of the gravitational field?"

What he meant was to adjust the intensity of gravity within a certain range.

In this way, the controllability will be very high and the scope of application will be wider.

Zhang Shuo thought for a moment and said, "If it is only adjusted within a small range, for example, within a deviation of 20%, it is possible."

He explained, "Generally speaking, the density, state, and range of the medium material can affect the range and strength of the final gravitational field."

"But in terms of intensity, the adjustable threshold range is limited."

“This aspect is technical, and a dedicated technical team can be asked to conduct research on single parameter decomposition experiments.”

Zhang Shuo is not interested in technical research, especially the technical expansion of single parameter solution.

He is still interested in developing new technologies or improving theories.

As for the improvement of technology, other people can also do research. After the experimental foundation is established, he will no longer be needed to do branch technology research. …

The experiment on the second day went very smoothly and successfully, although there were some unexpected things.

This is mainly because the equipment has been updated, various types of tests, and supporting facilities are also complete.

In addition, the number of researchers has increased and their level is also very high.

With the numerical values ​​of parameter solution, they only need to adjust the equipment parameters to complete an experiment.

Throughout the experiment, everyone was very calm.

In the end, the experiment was successful.

During the experiment, many people noticed that the gravity measuring device had displayed the value corresponding to the theoretical solution, which is 0.89 times the Earth's gravity.

This is almost consistent with the theoretical value.

After the experiment was successful, everyone was very excited. They had completed another experimental study on gravity manufacturing technology.

Teacher Wang was watching the experiment in the information room, and he also celebrated with Zhang Shuo.

Zhang Shuo's reaction was relatively calm, because he already knew it would succeed. To him, the experiment was just a verification of a new set of parameters.

If other institutions or teams knew Zhang Shuo's idea, they would probably have to deal with it by vomiting blood. It is too difficult for them to study the parameter solution of a model, let alone any applicable parameter solution.

Now many institutions or teams have a deep understanding of the difficulty of solving the electromagnetic-gravitational correlation model.

To find any set of solutions for this model, a lot of basic experiments are required.

Many institutions or teams have also begun intensive research, and their research has also yielded results, including the theoretical parameter solution results published by the Joint Gravitation Group.

As more institutions, teams and scientists join in the research, more and more relevant research results are being produced internationally.

A month later, the Joint Gravity Group announced new results.

This is a rare experimental result and it is of great significance.

French scientist Thierry Fabiano, on behalf of the Joint Gravitational Group, announced that they had successfully detected gravitational signals using ultra-high intensity magnetic fields.

"11.39T."

"Under this strong magnetic field, we detected gravitational signals using ultra-high activity media materials."

"After subsequent testing and evaluation, we believe the confidence level exceeds five sigma."

"That is to say, the research has confirmed that the basis of the origin point theory is true, there is a definite connection between electromagnetic force and gravity, and we can use electromagnetic force to create gravity."

This is public news and has been recognized internationally, but this is the first time that it has been truly verified by other teams, so naturally the impact is very great.

A large number of international media reported on this, and a large amount of public opinion information also emerged on the importance of the popular science research results.

But the name that appeared most frequently in public opinion was not Tien Fabiano, but Zhang Shuo.

Zhang Shuo's team had announced long ago that they had detected a gravitational signal and had also released some data related to the experiment, but not many people believed it at the time.

Later, the mysterious aircraft was exposed and determined to be a gravitational field manufacturing technology, and the source point theory began to be taken seriously.

Only now, the Joint Gravitational Group has detected the gravitational signal and confirmed the correctness of the foundation of the source-point theory.

Since then, it can be said that the source point theory has truly become source point physics and has been accepted internationally.

Those who have always claimed that they do not accept the source point theory, do not believe in the source point theory, and even think that new physics is a conspiracy, will no longer be believed by anyone.

In fact, the gravitational signal measured by the Joint Gravity Group is only a band range signal and is unsustainable.

This result only means that the experiment has detected a connection between electromagnetic force and gravitational force, and confirmed that they can be transformed into each other.

However, the experimental results cannot be transformed into technology, and there is a fundamental gap between the two.

It's like measuring cosmic rays and creating cosmic rays. Measuring them doesn't mean they can be created.

If you want to truly create a gravitational field, the most orthodox method is to solve the model and conduct experiments based on the results.

Another method is to measure the gravitational field by chance through a large number of experiments. In this case, there is no need to find a theoretical solution, but only a large number of experiments within the corresponding parameter range of the gravitational field.

This is naturally very difficult, because each parameter adjustment represents a new experiment, which requires a lot of money, time and energy.

The gravitational signals measured by the Joint Gravity Group seem to be the beginning of international research into gravitational technology and the production of results.

Just half a month later, the newly formed gravitational technology team at Fermilab also announced the detection of gravitational signals.

Later, a team collaborating between California Institute of Technology and the military also announced the detection of gravitational signals.

Several teams announced the detection of gravitational signals, further confirming the connection between electromagnetism and gravity.

This also helped push the source theory and Zhang Shuo himself into the focus of public opinion.

The theory of source point is the theory proposed by Zhang Shuo.

The source point theory was confirmed, which means the theory was verified, and it also helped boost Zhang Shuo's fame.

It is no exaggeration to say that Zhang Shuo is the most famous scientist in the world today, because there are a lot of reports in the media and Zhang Shuo's fame is known to everyone.

Even some people who are not interested in academics or have never been to school have heard of gravity technology and know Zhang Shuo's name.

At the same time, some special agencies are also considering new issues.

For example, should Zhang Shuo be awarded?

The Nobel Prize in Physics selection committee is considering this issue.

Before, they had never considered awarding a prize for the origin theory because there were many voices of disapproval internationally, and the experimental results were only available to the Chinese team.

Now the foundation of the origin point theory has been verified by several teams, and it is no exaggeration to say that its importance is worth "ten Nobel Prizes".

The Nobel Prize in Physics Selection Committee immediately contacted Zhang Shuo. They sent a message to Zhang Shuo's private email, asking him whether he would go to Sweden to receive the award.

Then, it was rejected outright.

The rule that distinguishes the Nobel Prize selection from other awards is that candidates are asked whether they accept the award.

If you accept, you will attend the award ceremony after the selection.

Zhang Shuo's research involves many military technologies and a lot of confidential research, so it is obviously impossible for him to attend the award ceremony.

This also troubled the Nobel Prize in Physics selection committee.

They are considering a question -

A person whose name is destined to be written into the history of the development of physics, whose research is bound to guide the development of human science and technology, and who is also the most famous physicist in the world, cannot win the Nobel Prize in Physics. Will the value of the award be greatly reduced as a result?

Even more so, what is the meaning of the so-called "most famous physics award"?
(End of this chapter)