The results released by the Antigravity Behavior Research Center are too high-end. The force field intensity has reached more than ten times. It has also released a lot of upgraded element results, which have made it completely incomprehensible to other institutions.
This is the case for the Groom Lake Project Team.
The same is true for the International Annihilation Theory Organization.
When faced with the competition with the Antigravity Behavior Research Center, Ronald Nolan only felt very desperate. Bill Bryan simply gave up the competition. They only thought about improving their technology and attracting customers.
Just use the funds to continue research.
This is because the gap is too big.
When the gap is not too big and you can still see the back of your opponent, you will have the fighting spirit to do serious research in the hope of catching up.
If the gap is too big, it will make people despair.
The problem is that the direct competitor of the Groom Lake Project Team is the Antigravity Behavior Research Center, and it is impossible for them to give up the competition even if they want to.
The statement in front of the media also proved the embarrassment of the Groom Lake project team.
When the Groom Lake Project was first established, their statements to the media were all about "catching up" with the Antigravity Form Research Center.
Later it became ‘catching up’.
From then until now, they would not talk about the Antigravity Research Center at all, they would just talk about their own research.
Because the opponent can no longer understand.
Ronald Nolan summoned other leaders of the project team to discuss the results of "more than a dozen magnifications and five upgrade elements". They could not even imagine what research Wang Hao's team was doing.
"That might be more than just improving the annihilation field."
"There are so many research directions they can do, and they have made so many new discoveries, it is simply unimaginable."
"I believe their equipment must be different from ours, and the basic technology is different, otherwise there wouldn't be such a big gap."
"It is impossible to produce magnetized materials in large quantities with the current technology..."
"..."
Their judgment was correct.
Even if the research that Wang Hao is concerned about is stated publicly, they have no way to imitate it because they have no basic materials.
Wang Hao is most concerned about the research of Shen Huiming's team.
After providing many kinds of upgraded materials, Shen Huiming is leading the team to study the technology of actively producing first-order waves of various frequencies. The basis of the research is various upgraded materials, future element materials, and the corresponding manufactured alloys and compounds.
Materials etc.
These materials are not available at other institutions.
The research goal of Shen Huiming's team is to create various first-order waves in a simple way.
Their previous method of creating first-order waves was to excite and radiate first-order materials. At present, the simplest method is to use the characteristics of 'brown gold' to reflect first-order waves, but reflection to create first-order waves has its limitations.
Still not a conventional manufacturing method.
Normally, the creation of electromagnetic waves couldn't be easier.
The reason why electromagnetic waves are called electromagnetic waves is because conventionally they are created using electromagnetic properties, but the same method cannot create first-order waves at all.
The research of Shen Huiming’s team is still very important.
If various first-order waves can be produced by simple methods, first-order wave technology can be widely applied, not just in laboratories and high-end fields.
While following the research of Shen Huiming's team, Wang Hao heard news about first-order waves, which was brought by the nuclear physics engineering team.
They conducted a first-order deuterium-deuterium fusion explosion experiment.
After conducting on-site data verification and statistics, the engineering team found that the brightness of first-order deuterium-deuterium fusion is not proportional to the intensity of energy release.
The person in charge of this project is Qian Jin.
The report he submitted read, "We found that the brightness of the explosion was far lower than the intensity of the energy released. It is suspected that a large amount of other energy was released, but it was not counted."
After Wang Hao read the report carefully, he asked Qian Jin for more detailed data, and then determined that the first-order deuterium-deuterium fusion released a large number of first-order waves.
"The brightness you detect is just the conventional light wave accompanying the release of the first-order wave."
"Research by Shen Huiming's team shows that during the propagation process of first-order waves, conventional waves will escape, and the total energy of the escaped conventional waves is much weaker than the energy series of the first-order waves."
"There is no specific research data yet, but the conclusion is unmistakable."
Qian Jin's nuclear engineering team's research went beyond that. They also obtained two very important data in a laboratory environment.
One is that during the first-order deuterium-deuterium fusion process, the energy intensity released by the reaction is 30mev, and the error range is within the 2mev interval.
This data is quite astonishing.
Among several nuclear fusion reactions, deuterium-tritium fusion is the most common reaction method, and the energy released is 17.6 mev.
Deuterium-deuterium fusion is called the most perfect fusion reaction because the reaction does not cause any pollution and is a truly clean energy source. However, compared to deuterium-tritium fusion, deuterium-tritium fusion requires a harsh environment and the energy released is relatively small.
Around 14mev.
First-order deuterium-deuterium fusion more than doubles the energy released by conventional methods, making it more suitable as a raw material for nuclear fusion.
Whether the first-order deuterium-deuterium fusion is "clean" needs to continue to be studied and demonstrated. After all, it is still unknown whether the first-order deuterium element and the first-order helium element produced by the reaction are harmful to the environment.
The second important data is the reaction cross section.
They experimentally proved that the reaction cross section of first-order deuterium-deuterium fusion is the same as that of conventional deuterium-deuterium fusion, which is still only 100 millibars.
This is good news.
The reason why deuterium-deuterium fusion reaction is difficult to occur is because the cross-section is much lower than that of deuterium-tritium fusion. The reaction cross-section of the latter is as high as 5 bar, while the deuterium-deuterium reaction is only 100 millibars, a difference of up to fifty times.
However, with f-ray technology for ignition, the high temperature can be maintained inside the reaction equipment, so that deuterium-deuterium fusion can continue. A small reaction cross-section is an advantage. A small cross-section means that the reaction is highly controllable and the reaction duration is
It will be very long, rather than ending in a quick burst.
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After a period of continuous follow-up research, Wang Hao returned to the Mason Tree Science Laboratory again.
This time I came back to attend the Nobel Prize Ceremony.
As was the case last year, Wang Hao, Helen and Chen Mengmeng all decided not to attend the awards ceremony.
The Nobel Committee can only use high-end imaging technology again to project Wang Hao, Helen and Chen Mengmeng onto the Nobel Prize Awarding stage.
A week before the awards were given, the winners of the Nobel Prize in Physics were announced, and Wang Hao won the Nobel Lifetime Achievement Award in Physics.
Helen and Chen Mengmeng won the Nobel Prize in Physics.
They have received phone notifications, the official website has been published, and it has also aroused heated discussions among domestic and foreign public opinion.
Domestic public opinion is naturally very exciting.
In recent years, scientific and technological research has focused on superconducting technology and annihilation physics. Flower growers are the leaders in high-end research, but the influence of the Nobel Prize cannot be denied.
The Nobel Prize still attracts a lot of attention.
Last year's physics prize winners were Wang Hao, He Yi and Paul Phil-Jones, who won the prize for their research on annihilation physics.
Many people feel that it is unlikely that the Nobel Prize in Physics will be awarded to annihilation physics this year. After all, the Nobel Prize in Physics is not awarded to Wang Hao's team, and in the field of annihilation physics, only Wang Hao's team is eligible to win.
What they didn't expect was that the selection was still for annihilation physics research, and the winners were Helen and Chen Mengmeng.
"Wang Hao won the Lifetime Achievement Award..."
"This is probably the reason why his two female students won the award!"
"The Nobel committee has no choice. They can only award Wang Hao a lifetime award, otherwise it will be Wang Hao in the next few years."
"Wang Hao has achieved lifetime achievement, and only the second candidate can win the award."
"Helen and Chen Mengmeng...they are also Wang Hao's students? How amazing. They are two female physicists. I have only heard of a genius named Ding Zhiqiang."
"..."
Helen and Chen Mengmeng won the award together, so the Mason Number Laboratory was naturally very lively.
Needless to say, a large group of people came to congratulate me. People inside the laboratory were also discussing this matter, and some people excitedly came up with ideas and told them what to do when awarding the award.
Paul Phil-Jones pulled Helen and said expectantly, "Did you see me last year? Dressing up as Superman, isn't it cool? You can dress up as the Hulk, it really suits you."
Helen grabbed the chair with an expressionless expression, as if she was considering whether to hit Paul's head with the chair.
To be continued...