From University Lecturer to Chief Academician

Chapter 476 Nobel Prize for Lifetime Achievement in Physics, Wang Hao: Hurry up and prepare!

The project Shen Huiming and his team are working on is to build a large-scale radar receiving station for the purpose of experimental analysis of first-order short-wave pulses.

There is currently no technology that can detect first-order electromagnetic waves, but their research found that regular electromagnetic waves are scattered around the first-order waves.

This is a very remarkable discovery.

Utilizing the principle of the first-order wave scattering the conventional wave, the scattered conventional wave can be received, and the signal strength can be expanded for analysis, so as to complete the reception of the first-order wave.

This is how a radar receiving station works.

Fortunately, the conventional wave scattered by the first-order wave is very weak. The radar of the receiving station must be built very large, and it must be supported by a sophisticated computer system to be able to complete the corresponding first-order pulse short-wave analysis.

Shen Huiming and his team completed the theoretical research, and then applied for the construction of the radar receiving station. The science and technology department naturally holds an absolute support for the research on the first-order wave. Just talk about the Airship-2 that opened the invisible shield Getting in touch is a very important technology.

The project was quickly approved, and the initial investment was as high as 30 million kinds of flower coins.

They have been working on this project, hoping to build a radar receiving station for subsequent experimental research.

This process of hard work was not easy, and it took a lot of energy from Shen Huiming and his team.

result……

"Now there are materials that can directly receive first-order waves? So what's the point of our project?" Shen Huiming's mood became very complicated, and he even began to worry about the research results.

"If it is researched, it will mean that the radar station project will lose its meaning."

"I can't research it..."

Who would hope that a technology cannot be researched?

Herein lies the paradox.

In the end, Shen Huiming sighed and took over the research work of reflected wave reception and detection.

It is meaningless to think about anything now, all he has to do is to lead the team to do research patiently, it is best to research it out, as for the radar station, he can only not think about it.

...

Wang Hao didn't know Shen Huiming's complicated mood. He felt that Shen Huiming was really excellent, especially when he heard that the other party had also discovered the first-order wave scattering of conventional waves.

This is a remarkable discovery.

Some physicists have studied the theory of annihilation before, combined with astrophysics, they believe that the interior of the black hole is filled with a strong annihilation force field, and the eruption of the black hole may mainly erupt high-order waves, while what humans observe using astrophysical means is only scattering conventional Wave.

The research results of Shen Huiming and his team have confirmed this theory to a certain extent.

Research now holds great promise.

After providing several first-order materials, the difficulty of research is actually greatly reduced, because detecting electromagnetic waves is not a high-end technology.

It was impossible to detect first-order waves before, simply because the material did not allow it.

Conventional materials naturally cannot detect first-order waves, just as human eyes cannot see first-order light waves. Even light waves of the same frequency can only be judged according to their frequency, not seen with the naked eye.

Now there are several first-order materials, and future elemental materials, including iron, copper, etc., are much easier to study than nature.

Wang Hao is looking forward to this very much.

After confirming the work of Shen Huiming and his team, Wang Hao returned to the annihilation force field experiment group and continued to lead the team to tackle key problems in the annihilation force field technology supported by CWF-041 granular materials.

The DC annihilation force field technology based on metal superconducting materials has the advantage that the structure of the bottom layer can be changed at will, because it is only a metal material, as long as it does not melt, it can be polished and bent at will, and the bottom layer can be continuously adjusted. The structure is modified.

This work is of course very complicated, but compared to the research on high-pressure mixed material structures, it is much simpler.

A week later, the research team started the next experiment.

The strength of the annihilation force field produced in the experiment was 17.9 times higher than the last time, which increased by 1.1 times. The improvement made everyone in the experimental group very happy.

"The increase is not huge."

Wang Hao's evaluation is very average, "It has only increased by 1.1 times, and it will become more and more difficult to go up."

Xiang Qiansheng was relatively optimistic. He said, "Maybe next time, we can improve even more."

"I hope."

Xiang Qiansheng thought it was just a matter of proof, but Wang Hao knew that their experimental improvement was moving forward step by step, and the next experiment would definitely have a better effect than this one, that is, the annihilation force field created would be stronger , but the rate of improvement is difficult to catch up with.

"According to the data this time, the 041 material can support the creation of an annihilation force field with a power of up to 20 times."

"That's the data that can only be accessed after a dozen or dozens of revisions and continuous experiments. It seems that if you want to improve it, you still need to change the material..."

"043 ah!"

Wang Hao is still looking forward to CWF-043, but unfortunately, the laboratory production of CWF-043 is a problem, and the production of granular materials takes too long.

The next day, the material testing center had a new report.

This report is a very important news, they detected more than 30% of the first-order hydrogen element.

It is very difficult to study the upgrading of hydrogen.

Hydrogen is a gas.

If the gas is packed in a high-compression device and placed in a strong annihilation force field environment, an explosion may occur. They conducted research on the upgrading of the hydrogen element, and then simply decided to put the hydrogen into the sealed first-order iron with a conventional density. in the box.

The first-order iron box will also produce a magnetization reaction, but due to the influence of a special phenomenon, the magnetization reaction will be very weak, and it will not affect the hydrogen inside.

Hydrogen gas of normal density will not explode either.

In this experiment, it was found that 30% of the hydrogen inside the iron box had been upgraded, and the relative proportion was still very high.

Wang Hao is also very interested in new discoveries, "If you want to study the internal principles of element upgrading, hydrogen atoms are a very good choice."

"A hydrogen atom contains only one proton and one electron."

"It is the number one element, and its structure is very simple. The hydrogen atoms have been upgraded, but not 100% of them have been upgraded, which shows that the abnormal phenomenon is related to the changes inside the proton."

"In the future, we will also conduct some theoretical experiments..."

After thinking about the theoretical significance of the new discovery, he reported the new results to the higher authorities and asked them to provide some deuterium materials.

Deuterium is an isotope of hydrogen.

Since upgraded hydrogen elements can be produced, upgraded deuterium elements can naturally be produced.

They can use experiments to manufacture first-order deuterium materials, and then hand them over to the nuclear physics team, and let the F-ray experiment team cooperate with the nuclear physics team to conduct research on the first-order deuterium-deuterium reaction.

This research is directly related to nuclear fusion engineering.

If the environmental requirements of the first-order deuterium-deuterium reaction are lower and can provide greater energy, the material for nuclear fusion is naturally the first-order deuterium.

...

at the same time.

Royal Swedish Academy of Sciences.

Jagland Berhard Anderson rubbed his forehead vigorously after returning to his office after attending a meeting of the Nobel Committee for the Physics Prize.

The selection of this year's Nobel Prize in Physics is at its last moment.

Many physicists were nominated, and the physicist with the most votes among the candidates was, not surprisingly, still Wang Hao.

This is also very normal.

Wang Hao's influence is too great.

Even the top scholars in other countries highly respect Wang Hao. There are several voting scholars in the Royal Swedish Academy of Sciences who voted for Wang Hao almost with their eyes closed.

the reason is simple.

If you vote for other physicists, you may be asked by others, why not vote for Wang Hao? In turn, it may be labeled as "extreme-right" politically (extreme right, ultra-nationalist, conservative).

If you vote for Wang Hao, everyone will think you are a fair scholar.

In the final voting results, Wang Hao was far ahead in the number of votes. He was nominated in two fields, one is the study of strong annihilation force fields, and the other is the theory of superconducting semi-topology.

In second place were two lesser-known female physicists.

One is Helen Hinton.

One is Chen Mengmeng.

These two female physicists are also Wang Hao's students. The "Strong Annihilation Force" research they jointly completed is still an important basic theory of annihilation physics, and most of the content that does not involve astrophysics has been confirmed.

The research field they were nominated for was naturally 'annihilation physics research'.

This year's Nobel Prize in Physics will be chosen between Wang Hao and these two female physicists. Just now, the Nobel Physicist Prize Committee held a meeting to select the top two. Normally, Wang Hao ranks The first will naturally win the prize.

However, they must consider a problem --

What about next year?

In the field of physics, Wang Hao has made too many contributions. If you find any of his research results, you are eligible to be nominated for the Nobel Prize.

Just in the field of superconductivity research, he is enough to win several Nobel Prizes.

In the field of superconductivity research, there have been many Nobel Prize winners in physics in the past, and Wang Hao's contribution alone is greater than their sum.

And this is just the field of superconductivity.

Now the whole world is focusing on annihilation physics, and in the direction of strong annihilation force field, Wang Hao is absolutely outstanding. No scholar can compare with him, and most of the research results are completed by him.

Of course, there is a very important reason that other physicists do not even have research qualifications.

Why can there be so many Nobel laureates in developed countries?

One of the important reasons is the scientific research environment. Physics research requires a scientific research environment. Without the support of a scientific research environment, it is a joke to study top physics.

Now only the Anti-Gravity Behavior Research Center has the most advanced annihilation force field technology, including anti-gravity, strong annihilation force and other related technologies. With an environment to complete high-end experiments, more results will naturally be achieved.

other scientists...

Even if they want to do research, because they don't have access to the strong annihilation force field technology, most of the research is simply impossible to do.

"This year is Wang Hao, and next year it will be Wang Hao..."

"The Nobel Prize in Physics is not for Wang Hao." Anderson thought with some distress, but the meeting they held just now came up with a plan.

Create a new award --

Nobel Prize for Lifetime Achievement in Physics.

Naturally, the Nobel Prize in Physics does not have a 'Lifetime Achievement Award'. To create a 'Lifetime Achievement Award' especially for Wang Hao will naturally cause internal controversy.

Anderson knew that they would eventually agree, otherwise they would have to award Wang Hao consecutively.

Even if most scholars don't care, they are not the ones who get the award anyway, but always giving the award to Wang Hao will also cause dissatisfaction among some 'right-wingers'.

After all, Wang Hao is a flower grower.

Helen and Chen Mengmeng, two female physicists, ranked second in the number of votes. There is also a reason that Helen Hinton is from American.

Even though she is already in the florist and has a green card from the florist, she is white and comes from the Hinton family, a high-yielding top scholar, so she will naturally get a lot of support.

...

Anderson's judgment was not wrong.

When the time approached to announce the results of the Nobel selection committee, those who opposed the establishment of a lifetime achievement award fell silent.

Compared with continuously awarding awards to Wang Hao, it is no big deal to set up a "Lifetime Achievement Award".

The news is confidential, but not completely confidential.

In academia, there is no secrecy.

Some scholars who participated in the meeting told their friends the news, and soon more people knew the news. By the next day, Wang Hao had received several emails——

"Congratulations on your Lifetime Achievement Award!"

"Wang Hao, do you know? You won an unprecedented award! And I also know that your student won the Nobel Prize in Physics."

"The research on "Strong Annihilation Force" is really amazing!"

"This year's Nobel Prize presentation must be very lively. It is so rare that two female physicists won the prize, and they are still very young..."

"..."

Wang Hao was a little dazed looking at the news on the email.

It would be understandable if Helen won the Nobel Prize in Physics. Helen has done a lot of research on annihilation physics and quantum physics.

Chen Mengmeng...

Wang Hao felt a little headache thinking about it, so he simply yelled outside, "Meng Meng!"

Chen Mengmeng was in the office next to her. When she heard the shout, she walked over quickly, holding a snack in her hand and stuffing it into her mouth, "Here we come, Teacher Wang!"

Wang Hao stared at Chen Mengmeng seriously.

That look made Chen Mengmeng feel a little flustered, she shrank her neck and asked, "Mr. Wang, what's wrong?"

"Oh~~~"

Wang Hao sighed and asked, "Have you done any research recently?"

"Research? What research?"

"For example, quantum physics, or annihilation physics, or something else, whether mathematics or anything..."

"No!"

Chen Mengmeng's answer was very straightforward.

"what are you doing then?"

Chen Mengmeng shook her hair vigorously, hesitated for a long time, and then said, "I'm very busy with work, I still need to communicate with several experimental groups, and I also need to pay attention to the news of the nuclear fusion project..."

What she meant was that the assistant was busy with work and had no time to do research.

"Oh~~"

Wang Hao sighed again, "Do some research if you have time recently, no matter what kind of research it is, when a reporter interviews you, you can also talk about it..."

"ah?"

Chen Mengmeng was puzzled, "Why would a reporter interview me? I don't accept interviews!" Her voice was firm and powerful.

As Wang Hao's work assistant, he will not accept any interviews on weekdays.

Wang Hao said directly, "There will definitely be an interview, so let me tell you first."

"During this time, you should also pay attention to academic issues, especially some cutting-edge physics. By the way, you should also re-study the theory related to the strong annihilation force."

"Get ready!"

He said and shook his head vigorously again, as if he was very disappointed with Chen Mengmeng.

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