From University Lecturer to Chief Academician

F-ray instant detection data released by new device --

The intensity of the release port is beyond the detection range (10 times).

Duration: 0.913 seconds.

Diameter: 1.17 cm.

After listening to the report, Wang Hao immediately grasped the key point, "0.913 seconds, it seems to be lower than the previous data..."

He checked the data again and found that the F-ray released by the previous device lasted for 1.192 seconds. After comparing the two data, he could immediately draw a conclusion, "It seems that the duration of the F-ray is not only related to the built-in energy intensity, but also It also has to do with the intensity of the F-rays."

The higher the F-ray intensity, the higher the built-in energy intensity required to maintain it.

The F-ray force released now has a minimum increase of 50% compared to the original one, and the strength of the built-in nuclear reactor has also been slightly increased, but the magnitude is not large, and the duration is also shortened as a result.

The researcher Wang Qiang next to him asked, "If the same equipment is used to release low-intensity F-rays, maybe the duration will be longer?"

"Probably so."

Wang Hao nodded in thought, and continued, "Different devices have different carrying capacity of built-in energy intensity. The ability to release high-intensity F-rays shows that the strength of the thin layer of the internal strong annihilation force field is also high, and it can carry stronger built-in energy. energy."

"Our experiment is still conservative."

He said and shook his head.

In the absence of accurate experimental data, the built-in nuclear reactor must be stable to ensure that the equipment will not be damaged due to excessive energy intensity or other problems.

At present, it is still mainly to release F-rays. After the nuclear fusion project is officially started, the large-scale experimental research on the upper limit of the energy carried by the field force will be carried out.

An hour later, all the test data came out.

The highest intensity of the magnetization reaction of the material is 14T, the data is relatively low, but it is already very good in the F-ray experiment, mainly because the F-ray covers a line, not the whole material, and the magnetization data is naturally required. lower.

After that is the point.

Material testing.

This experiment is mainly to release F-rays, and at the same time, material testing will be carried out. A series of simple materials and compounds, and even compressed gases are placed in the direction where F-rays pass.

F-rays are a kind of field force, not pure energy, and will not affect the propagation coverage distance due to the short loss of capacity caused by the presence of matter in the middle.

No matter how much material is placed, it will not affect the experimental results.

The experiment is over.

Wang Hao returned to Xihai University, and received a series of inspection reports the next morning. There were two institutions responsible for the inspection, namely the material laboratory attached to the F-ray experiment group, and the annihilation force field experiment group. Material Testing Center

The material laboratory is just a small laboratory that can do some routine testing. Relatively speaking, the material testing center is relatively more professional.

The content of the report submitted by Wang Hui's laboratory is also very shocking, because they "suspected" discovered a variety of upgrading elements.

"silicon?"

"Mercury, tungsten, copper, potassium..."

"hydrogen?"

The last element shocked Wang Hao.

The discovery of other upgraded elements can be said to be expected. After all, iron, lithium, and carbon have been discovered. If the F-rays increase significantly, more upgraded elements will naturally be discovered.

But...hydrogen?

This element is quite unusual because hydrogen is a gas.

Now the discovery of upgraded elements can also summarize certain rules, mainly metal elements and elements with stable chemical bonds.

Carbon, silicon, both belong to the latter.

Others belong to 'metal elements', if a 'hydrogen element' appears, the law seems to disappear again.

Wang Hao simply went to the material testing center.

The current material testing center is very busy, and everyone is involved in the testing work, so it is not easy to assign individual hands.

After entering Wang Hui's laboratory, Wang Hui, Zhou Qing and two other researchers were still doing research in the dust-free laboratory.

Wang Hao waited for more than ten minutes before a young female researcher came out.

The name of this young researcher is Wang Lixia, she is only less than forty years old, and she was specially transferred from the Materials Institute of the Academy of Sciences to work.

"Academician Wang!"

Wang Lixia came out and shouted politely, and then greeted, "How long have you been waiting here? Professor Wang and the others still need some time."

"doing what?"

"Precise measurement of gas pressure and density." Wang Lixia said with some expectation, "We found a variety of upgraded materials, but not necessarily."

"Now it's just a suspicion. The only thing that can be confirmed is silicon. Because the content of first-order silicon is very high, it has reached about 13%."

"So tall?" Wang Hao said in surprise.

The report he read was sent last night, and the data is not so accurate. Obviously, the people in the testing center have been working since last night.

Wang Lixia was also obviously tired, and her eye circles were red and swollen, but she was still in high spirits, "The content of other elements is not high, and more precise experiments must be done to confirm the results."

"Our group is responsible for hydrogen..."

"This element is very interesting."

Wang Lixia was a little excited when she said that, she also knew how important the 'hydrogen element' was, and it was the first gaseous element to be discovered.

Wang Hao also nodded expectantly, "Indeed, the discovery of first-order hydrogen is of great significance, it is crucial to perfecting the theory, and it is also widely used."

The two said a few words.

Wang Lixia found out a series of test results.

Wang Hao looked at the data one by one, just like what Wang Lixia said, other elements were only "suspected" discoveries, and data deviations were found during the detection process, but some data deviations were only within the normal range, and it was difficult to define Is it really found.

If you want to confirm the discovery, you must do a series of high-precision experiments to get the final result, and the extraction will be very complicated.

Silicon, is different.

The content of first-order silicon is simply too high.

The silicon material they use is high-purity elemental silicon, which is used as a semiconductor material, and the name of the application field is 'silicon'.

When the first-order silicon content is high, the physical properties of 'silicon' are significantly enhanced, and it is naturally easy to detect.

After a while, Wang Hui, Zhou Qing and others finished their time and walked out of the office together.

Wang Hui shook his head as he walked out the door.

"Not ideal?" Wang Hao noticed Wang Hui's expression and asked.

"Not ideal."

Wang Hui said 'not ideal', but he looked energetic, "We still can't be 100% sure that we have discovered first-order hydrogen in the experiment just now."

"Pressure and density tests, no matter how high the accuracy is, there will be deviations, and other methods must be found for measurement to be convincing."

"However, there is a high probability."

"How likely is it?"

"above 95."

"fine……"

Wang Hao nodded in thought. The probability of '95%' found in physical experiments is not high. In terms of the discovery of upgraded elements, the probability of '99.99%' or more is convincing.

Wang Hui took a glass of water, sat down and asked, "Academician Wang, there are still too few magnetized materials. Some experiments require more materials. Can you manufacture them in large quantities?"

"Large batch... how much batch?"

"It's like a magnetized iron material. If it can be tens of kilograms, one ton... Anyway, the more the better, more experiments can be carried out."

Wang Hao grinned vigorously, shook his head and said, "Impossible for the time being."

"Why?" Wang Hui was a little confused, so he didn't know the F-ray generation technology, and thought that the material was produced by conventional high-pressure annihilation force field experiments.

Wang Haodao, "I can only tell you that the manufacturing method is different."

"All right."

Wang Hui also knew about the confidentiality issue.

...

Work continues at the Material Testing Center.

The follow-up experimental measurement work will last at least a week. Wang Hao also stayed in the testing center for a day, went to the annihilation force field experiment base, and then returned to Xihai University.

The next step is to wait for the results.

However, Wang Hao was still busy with his work. He only had a two-day rest before going to Xijing to participate in the nuclear fusion demonstration meeting led by the science and technology department.

This meeting is different from the last one. Many scholars who have participated in experimental research have begun to see the demonstration of nuclear fusion.

They considered the fusion project 'at least passable'.

For example, Wang Baichuan.

He didn't talk about the "horrific ignition technology he saw" with others, but he was very optimistic about the demonstration of nuclear fusion. "It must be no problem to pass the demonstration."

"Recently, domestic and foreign research on advanced materials has made breakthroughs one after another, including steel, alloys, superconducting materials, and so on."

"This would allow us to have more of a materials technology base."

"According to Academician Wang's design theory, with the basic support of material technology, other problems will not be too big..."

This statement has been approved.

International nuclear fusion research focuses on the design of the tokamak device, and of course the support of materials is also indispensable.

The nuclear fusion control solution given by Wang Hao is to weaken the design of the helical magnetic field, so that the magnetic field has an additional "opening", but the requirements for material technology are higher.

While material technology is demanding, material technology is also booming.

The research on advanced materials is in full swing, and there have been many shocking achievements at home and abroad.

For example, the Institute of Aeronautical Materials has developed a nickel-iron alloy material with a high melting point and high toughness, which has increased the performance of the original material by 30%.

Ten years ago, similar achievements would have shocked the world.

Nickel-iron alloy with high melting point and high toughness is the fan blade material of aero-engine, which can support the manufacture of more high-end aero-engine.

It's different now.

Many material research institutions and enterprises have achieved results in related fields, and the research findings of the Institute of Aeronautical Materials are not very impressive among them.

Of course, another reason is that both at home and abroad are paying attention to anti-gravity aircraft.

Anti-gravity aircraft is driven by electric motors, and aero-engine technology has naturally received less attention. It is certainly not as good as ultra-high-performance superconducting motor technology.

The fan blades inside the superconducting motor are not in a high-pressure, high-heat environment.

Inconel is also just an option.

In the second demonstration meeting of the nuclear fusion project, many scholars took the initiative to speak. They talked about the research progress at hand. They summarized their research and ideas one by one, and solved many detailed problems.

The general direction is container technology and material research.

When there are technological breakthroughs one by one, the completion of the nuclear fusion demonstration seems to be in sight.

"Wait for the next demonstration, if there are some technical breakthroughs, it will be almost there..." Teacher Xu said to Wang Hao after the meeting. His work pressure is very high, but he is still looking forward to it.

Wang Hao smiled and said, "It will be there soon."

"Is it coming soon?"

Wang Haodao, "You know about our recent experiments, right? If we can produce finer granular materials, there will be a breakthrough in force field container technology."

"We are also working on dense materials technology."

"Also, our latest discovery has not yet been submitted, you just wait for the new report."

"What discovery?" Teacher Xu asked with interest, "Is it the F-ray side? I know that you have conducted excitation experiments with new equipment."

"right."

"Upgrade elements?"

"a lot of."

"a lot of?"

Teacher Xu was shocked when he heard this word, "How many?"

"Several."

Wang Hao said, "Although the efficiency of F-rays in producing magnetized materials is very low, it is enough if they are only used in the research of nuclear fusion technology."

Teacher Xu suddenly took a deep breath.

He digested the information, and suddenly said, "By the way, at the space agency, Mr. Zhao from the Design Department may come to you..."

"What's up?"

"Math problem."

...

Teacher Zhao asked Wang Hao for a math problem, but the scale of the math problem was a bit large. He wanted Wang Hao to look at the "moon landing plan" and calculate and correct the round-trip trajectory.

When Wang Hao returned to Xihai University, he was waiting for Mr. Zhao.

They met in the office. Mr. Zhao was accompanied by two old academicians and three younger researchers.

One of the academicians named Yuan Zhifang talked about a problem he wanted Wang Hao to help solve.

Wang Hao was shocked when he heard this, and he asked in puzzlement, "Aren't you joking? The calculation and correction of the entire round-trip trajectory is a big project."

"There's nothing we can do..."

Teacher Zhao smiled wryly, "The current design is what we think is the best solution, but we have encountered a problem - insufficient energy."

"Insufficient?"

"right."

Teacher Zhao said, "It's not enough, it's not enough. According to this design, the energy will be very limited during the return journey. If there is any problem, the energy may be insufficient."

Yuan Zhifang then explained, "A spacecraft in space, except for the internal solid fuel, can only be supplemented by solar panels. Our solar panel design has been maximized, and it will affect the overall operation of the spacecraft... "

"If the trajectory can be corrected to reduce the use of solid fuel, the energy problem can be guaranteed as much as possible."

Wang Hao took the document and read it carefully, and suddenly felt a little pain in the head.

"Moon landing" is a very large plan, even if it is only the design of the round-trip trajectory, it involves a series of problems.

This is indeed a mathematical problem, but it has been calculated by many top scientists.

Fix it again?

Not to mention that it is possible or impossible, even if it can be corrected to complete a near 'optimal design', the improvement will not be much.

He thought about it carefully, and suddenly his eyes lit up, and said, "Solid fuel shouldn't increase anymore, why don't you find a solution from solar panels?"

"For example, you can use higher performance solar panels."

"..."

"..."

Teacher Zhao, two old academicians, and several researchers all felt that they had heard a ridiculous suggestion.

solar panel?

Higher performance?

How is this different from 'why not eat minced meat'?

If there are higher-performance solar panels, the energy problem can be solved directly, so why come to Wang Hao to help fix the track?

This is already no way!