Chapter 475: Nobel Prize for Lifetime Achievement in Physics, Wang Hao: Hurry up and get ready!
The project Shen Huiming and his team are working on is to build a large radar receiving station with the purpose of experimentally analyzing first-order pulse shortwaves.
There is currently no technology that can detect first-order electromagnetic waves, but their research found that regular electromagnetic waves are scattered around first-order waves.
This is a very remarkable discovery.
Using the principle of first-order waves scattering conventional waves, you can receive the scattered conventional waves and expand the signal strength for analysis, thereby completing the reception of first-order waves.
This is how a radar receiving station works.
Fortunately, the conventional wave scattered by the first-order wave is very weak. The radar at the receiving station needs to be very large and supported by a sophisticated computer system to complete the corresponding first-order pulse shortwave analysis.
Shen Huiming and his team completed the theoretical research and then applied for the construction of a radar receiving station. Naturally, the science and technology department has an absolutely supportive attitude towards the research on first-order waves. Just talk about the Airship-2 with the stealth shield turned on.
Getting in touch is a very important skill.
The project was approved quickly, and the initial investment was as high as 30 million flower coins.
They have been working on this project and hope to build a radar receiving station for subsequent experimental research.
This process of hard work was not easy and consumed 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 results of his research.
"If it is researched, it will mean that the radar station project will lose its meaning."
"I can't figure it out..."
Who would hope that a technology cannot be developed?
This is the contradiction.
In the end, Shen Huiming sighed and took over the research work on reflected wave reception and detection.
There is no point in thinking about anything now. All he has to do is lead the team to do research patiently. It is best to research it. 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 indeed very good, especially when he heard that the other party had also discovered first-order wave scattering of conventional waves.
This is an amazing discovery.
Some physicists have studied the annihilation theory before, and combined with astrophysics, they believe that the interior of the black hole is filled with strong annihilation force fields, and the explosion of the black hole may mainly erupt high-order waves, while what humans observe using astrophysical means are only scattering rules.
Wave.
The research results of Shen Huiming and his team have confirmed this theory to a certain extent.
Current research 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 not possible to detect first-order waves before, simply because the material did not allow it.
Conventional materials naturally cannot detect first-order waves, just like human eyes cannot see first-order light waves. Even light waves of the same frequency can only be judged based on their frequencies, rather than visible to the naked eye.
Now that there are several first-order materials, research on future elemental materials, including iron, copper, etc., will become much easier than in 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 experimental group and continued to lead the team to tackle the annihilation force field technology supported by CWF-041 granular material.
The DC annihilation force field technology based on metal superconducting materials has the advantage that the underlying structure can be changed at will, because it is just a metal material. As long as it is not melted, it can be polished and bent at will, and the underlying structure can be continuously processed. The architecture is modified.
This work is of course very complicated, but compared to the research on high-pressure hybrid material structures, it is much simpler.
A week later, the research team started the next experiment.
The strength of the annihilation force field created in the experiment was 17.9 times, which was 1.1 times higher than the previous time. Everyone in the experimental group was very happy with the improvement.
"The improvement is not huge."
Wang Hao's evaluation was very average, "It only increased the rate 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 so."
Xiang Qiansheng thought it was just a matter of demonstration, but Wang Hao knew very well that their experimental improvements were moving forward step by step. The next experiment will definitely be more effective than this one, that is, the annihilation force field created will be stronger. , but the magnitude of improvement is difficult to catch up with.
"According to this data, 041 material can support the creation of an annihilation force field with a power of up to 20 times."
"That's data that can only be accessed after more than ten or dozens of modifications and continuous experiments. It seems that if you want to improve, you still need to change the materials..."
"043 ah!"
Wang Hao is still looking forward to CWF-043, but unfortunately, the laboratory production of CWF-043 is a problem, and it takes too long to make granular materials.
The next day there was a new report from the Materials Testing Center.
This report is very important news. They detected the first-order hydrogen element with a content of more than 30%.
It is very difficult to study the upgrading of hydrogen element.
Hydrogen is a gas.
If the gas is installed in a high-compression device and placed in a strong annihilation field environment, an explosion may occur. They conducted research on the upgrading of the hydrogen element, and later decided to put the hydrogen gas into a sealed first-order iron at a normal density. In the box.
The first-order iron box will also produce a magnetization reaction, but due to the influence of special phenomena, the magnetization reaction will be very weak and will not affect the hydrogen inside.
Hydrogen of normal density will not explode.
In this experiment, it was found that 30% of the hydrogen gas inside the iron box was upgraded, which is still a very high relative proportion.
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."
This chapter is not finished yet, please click on the next page to continue reading the exciting content! "Hydrogen atom contains only one proton and one electron."
"It is the No. 1 element with a very simple structure. The hydrogen atoms have been upgraded, but not 100% of them. This shows that the special phenomenon is related to the changes within 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 superior department 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 create first-order deuterium materials, then hand them over to the nuclear physics team, and let the F-ray experimental 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 first-order deuterium-deuterium reaction has lower environmental requirements and can provide greater energy, first-order deuterium is naturally the first choice as the material for nuclear fusion.
…
at the same time.
Royal Swedish Academy of Sciences.
Jagland Bernhard Andersen had just attended a meeting of the Nobel Prize Committee in Physics, and when he returned to his office, he rubbed his forehead vigorously.
The selection for this year’s Nobel Prize in Physics has come to the final 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 really too great.
Even the top scholars from other countries have high regard for Wang Hao. There are several voting scholars at the Royal Swedish Academy of Sciences who almost closed their eyes and voted for Wang Hao.
the reason is simple.
If you vote for other physicists, you may be asked by others why you didn't vote for Wang Hao? Then you may be labeled as "extreme-right" (extreme-right, ultra-nationalist, conservative) internally.
).
If you vote for Wang Hao, everyone will think that he is 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 was research on strong annihilation force fields, and the other was superconducting semitopological theory.
The second-placed vote-getters were two less well-known female physicists.
One is Helen Hinton.
One is named Chen Mengmeng.
These two female physicists are also students of Wang Hao. The research on "Strong Annihilation Force" they completed together is still an important basic theory of annihilation physics, and most of its contents that do not involve astronomy have 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 on the selection of the top two. Normally, Wang Hao ranks
The first one will naturally win the prize.
However, they must consider a problem--
What about next year?
In the field of physics, Wang Hao has made so many contributions that if you find any of his research results, you are eligible to be nominated as a Nobel candidate.
Just in the field of superconductivity research, he was enough to win several Nobel Prizes.
In the field of superconducting research, there have been many Nobel Prize winners in physics in the past, but Wang Hao’s contribution alone was greater than their combined total.
This is just the field of superconductivity.
Now the whole world is focusing on annihilation physics, and in the direction of strong annihilation force fields, Wang Hao is absolutely unparalleled. No scholar can compare with him. He has completed most of the research results.
Of course, a very important reason is that other physicists do not even have research qualifications.
Why do developed countries have so many Nobel laureates?
One of the important reasons is the scientific research environment. Physics research requires a scientific research environment. Without the support of the scientific research environment, it is simply a joke to study top physics.
Now only the Antigravity Behavior Research Center has the most high-end annihilation force field technology, including antigravity, strong annihilation force and other related technologies. They have the most high-end scientific research environment, and the scientists involved can obtain information as soon as possible and
With an environment to complete high-end experiments, you will naturally be able to achieve more results.
Other scientists…
Even if they want to do research, because they do not have access to strong annihilation field technology, most research cannot be started at all.
"This year it's Wang Hao, next year it will be Wang Hao again..."
"The Nobel Prize in Physics was not created for Wang Hao." Anderson thought with some distress. The meeting they just held had come up with a plan.
Create new awards--
Nobel Prize for Lifetime Achievement in Physics.
Naturally, the Nobel Prize in Physics does not have a "lifetime achievement award". Setting up a "lifetime achievement award" specifically for Wang Hao will naturally cause internal controversy.
Anderson knew they would eventually agree, otherwise they would have to award Wang Hao consecutive awards.
Even if most scholars don't care, and they are not the ones to win the award anyway, always giving awards to Wang Hao will cause dissatisfaction among some 'right-wingers'.
After all, Wang Hao is a flower-growing family.
Helen and Chen Mengmeng, two female physicists, ranked second in votes. This is partly because Helen Hinton is an Amerikan.
Even though she is already working as a florist and has a green card as a florist, she is white and comes from the Hinton family, which is a prolific and top scholar, so she will naturally get a lot of support.
…
Anderson's judgment was correct.
When the time came for the Nobel Selection Committee to announce the results, those who opposed the establishment of a lifetime achievement award fell silent.
Compared with awarding awards to Wang Hao continuously, setting up a ‘Lifetime Achievement Award’ is not a big deal.
This information is confidential, but not completely confidential.
In academia, there is no such thing as confidentiality.
Scholars who participated in the conference told their friends about the news, and soon more people knew the news. By the next day, Wang Hao had received several emails--
"Congratulations on receiving the Lifetime Achievement Award!"
"Wang Hao, did 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 Awards will definitely be very lively. Two female physicists won the prize. It's so rare, and they are still very young..."
"..."
Wang Hao was a little stunned when he saw the message in the email.
It would be understandable if Helen won the Nobel Prize in Physics. Helen has done a lot of research related to annihilation physics and quantum physics.
Chen Mengmeng......
Wang Hao had a headache just thinking about it, so he simply shouted outside, "Meng Meng!"
Chen Mengmeng was in the office next to her. When she heard the shouting, she walked over quickly, holding snacks in her hand and stuffing them into her mouth, "Here you go, Teacher Wang!"
Wang Hao stared at Chen Mengmeng seriously.
That look made Chen Mengmeng feel a little flustered. She shrank her neck and asked, "Teacher Wang, what's wrong?"
"Alas~~~"
Wang Hao sighed and asked, "Have you done any research recently?"
"Research? What research?"
"For example, quantum physics, or annihilation physics, or something else, mathematics, anything..."
"No!"
Chen Mengmeng's answer was very straightforward.
"what are you doing then?"
Chen Mengmeng shook his hair vigorously, hesitated for a long time, and then said, "I am very busy at work. I have to communicate with several experimental groups and pay attention to the news about the nuclear fusion project..."
What she meant was that the assistant was very busy with her work and had no time to do research.
"Alas~~"
Wang Hao sighed again, "If you have time recently, do some research. No matter what the research is, when a reporter interviews you, you can also talk about it..."
"ah?"
Chen Mengmeng's face was full of doubts, "Why would a reporter interview me? I don't accept interviews!" Her words were firm and powerful.
As Wang Hao's work assistant, he does not accept any interviews on weekdays.
Wang Hao said directly, "There will definitely be an interview, so I'll tell you about it first."
"During this period, 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!"
As he spoke, he shook his head vigorously again, as if he was very disappointed with Chen Mengmeng.