Chapter 633 The second equipment, cosmic ray chemistry? Space? How miserable...
After completing the demonstration of the interference of magnetic fields on strong S-waves, the next experimental work goal was set--
Create short-distance strong S waves!
To complete the production of short-distance strong S-waves, it is necessary to add a strong magnetic field in a fixed direction to the equipment.
The strong magnetic field is not produced on the outer layer or above the equipment, but must be produced inside, that is, the underlying structure needs to be within the coverage of the magnetic field.
This is mainly because there is no area above the equipment that can create strong S-waves. The research team believes that strong S-waves may be squeezed into the underlying structure or even into the invisible outer layer of the conductor.
Because the underlying structure is a superconducting structure, superconducting can block the influence of magnetic fields, and there is no need to worry about strong magnetic fields affecting the operation of the equipment.
The research mainly conducts experiments to create a strong S-wave area at close range.
So far, it has only passed in theory, but everyone is very confident in Wang Hao's judgment. They believe that the next step of experiments is just verification and manufacturing.
Although the next experimental target has been determined, you still need to wait if you want to conduct the experiment.
They cannot install strong magnetic fields on the original equipment.
The original equipment still needs to continue to create strong S-wave areas for field force research. New experiments can only be placed on new equipment, which is still being assembled and debugged.
The assembly and debugging of new equipment has been very fast.
The main limitation lies in the underlying materials and manufacturing issues. The materials required for the experiment are manufactured by the Superconducting Materials Research Center and are manufactured by laboratory means. The manufacturing speed is naturally very slow.
The material used in the new equipment will be replaced by β-CWY-138, which is an upgraded iteration of the original β-CWY-137.
β-CWY-138 has the same elemental composition as β-CWY-137, but the manufacturing process has been improved and the internal structure of the material has become more stable.
β-CWY-138 has been verified by gravitational field technology and proved that the performance has been improved. That is, under the same current intensity, the gravitational field intensity produced is higher. At the same time, the upper limit of carrying current has also been enhanced, and the material performance has been improved.
Still very big.
In addition, the superconducting critical temperature of β-CWY-138 has been increased by 3 degrees Celsius, which will also make the experiment easier.
The most critical point is that the manufacturing process and technology of β-CWY-138 have been simplified, which reduces the manufacturing cost and increases the speed of laboratory manufacturing.
After using β-CWY-138 material, the Superconducting Materials Research Center has been able to provide sufficient basic material supply to the strong S-wave experimental group and the gravitational field technology group.
The research team is also looking forward to the new equipment.
During the process of equipment assembly and debugging, some people also proposed to assemble the excess materials into bottom-level fixed modules in preparation for manufacturing the next equipment.
at the same time.
The theoretical team continues the basic demonstration work.
On the basis of the interference effect of magnetic fields on strong S waves, they will continue to find directions and demonstrate how to create F-rays with strong S waves.
"Maybe it's not just f-rays."
Helen expressed her opinion, "Strong S waves and strong annihilation fields are different, and the way of exciting rays will be different."
"I think that the excited F-rays may exist in a state that connects the location of the device and the field force."
The strong S-wave area created now is more than 500 kilometers away from the location of the equipment. It exists by virtue of the strong S-wave penetrating the conventional annihilation force field environment, reaching the extreme distance and being squeezed.
What Helen means is that the f-rays produced will connect the equipment and the strong S-wave area.
Wang Hao denied Helen's statement. He did not directly say that she was wrong. He just said, "There may be other ways of release."
One sentence made Helen very depressed.
Many times in the past, when she put forward a certain opinion, Wang Hao immediately rejected it.
The views put forward by Ding Zhiqiang were affirmed by Wang Hao more often.
Helen immediately looked at Ding Zhiqiang, and then became a little annoyed, because Ding Zhiqiang obviously had no intention of competing with him.
While they were discussing, Ding Zhiqiang used 'rest time' as an excuse and continued to stare at the phone screen and laugh.
“Watching those meaningless short videos again!”
"Waste of time, waste of energy!"
"Big data algorithms can always recommend videos that interest you, but you can't see content that is helpful and meaningful to you at all."
"If you always look at these things, your knowledge, your thinking, and your cognition will be limited to a fixed framework..."
"Ula Ula·~"
Helen continuously talked about a lot of disadvantages of watching short videos.
Ding Zhiqiang was not interested in this at all. He raised his head and said indifferently, "Senior Helen, I understand everything you said, but the problem is... I just watch game videos."
"It doesn't matter if my understanding of the game is limited. I have no intention of continuing to improve my skills..."
"On the contrary, you always want to study related things and don't look at other things. How do you know that your thinking will not be limited by cognition?"
"..."
Helen frowned and thought carefully for a long time, unable to come up with a rebuttal. She asked, "You mean, I should also read something else?"
"No."
Ding Zhiqiang immediately shook his head and said, "I mean, it's rest time now, I'm willing to look at my phone, you have nothing to do with it!"
"——!!"
Helen looked at Ding Zhiqiang fiercely, then walked to Chen Mengmeng and started talking to Chen Mengmeng in a low voice. Just by looking at her expression and eyes, she knew that the content must be related to Ding Zhiqiang.
Seeing the farce of the three students, Wang Hao couldn't help but smile and shook his head.
He sorted out the files on his desk, opened his computer and checked the contents of his emails, hoping to find some relevant professional information.
The theory group looks for information in a wide range of areas, including intranet databases, professional information from large institutions, public papers, etc. It also includes looking for information from other scholars and institutions.
This chapter is not over yet, please click on the next page to continue reading! The latter depends on the relationship network.
Information about institutional scholars is also a very important part, because most of the information that can be found publicly are achievement papers, and the content is not too detailed and involves other disciplines, especially some refined small subjects. If you want to find professional information, just
It's not that easy anymore.
In the professional direction of many small subjects, there are no specialized scientific research institutions in China. Scholars engaged in relevant research are very few, and naturally there is not much professional information.
Now Wang Hao wanted to find some information related to space research, including space physics, space chemistry, space-time research, etc. He browsed his mailbox and found that there were hundreds more emails.
This is only the number of emails in one week, and it has been screened. Every email comes from scholars from all over the world.
Wang Hao has a public email address.
Many institutions and top scholars know the email address, and they will send some emails asking for communication, and some old friends will also send emails to greet me.
Wang Hao's reputation is so great that he naturally receives a lot of emails. He has dedicated personnel to process the contents of his mailbox. They only screen those marked addresses or academic exchange content, and other emails are processed directly.
In the mailbox you open now, all the content that has been filtered and forwarded is displayed.
Wang Hao looked at them one by one, only taking a few glances at some and then cleared them away.
Some will write a simple reply.
Only when he encounters a question of interest or receives an email from an old friend will he become more serious, read the email carefully, and write a serious reply.
When he turned to the third page, he clicked on an email and saw a somewhat familiar name.
"Delete Fernandez Garcia? He seems to be an astrophysicist, right?"
He was a little unsure, so he read the content carefully.
Delete sent an email explaining that his research group wants to reshape the research content of space chemistry, and hopes to understand the impact of S waves, strong S waves, annihilation fields and other fields on cosmic rays and cosmic ray propagation.
There are too many issues involved.
Delete gave a detailed explanation and asked more than a dozen questions.
For example, will the existence of the annihilation force field in the universe affect the speed of light and the lifespan of photons?
Is there a problem of ‘reduction of protons or neutrons’ in the universe?
S-wave related space issues, if there is a gravitational field formed by S-wave in the universe, what kind of interference will it cause to the propagation of cosmic rays.
etc.
Each of these is a big problem and involves content in all directions of annihilation physics.
Wang Hao first went to get to know Delete and knew that he was a famous astronomer and a scholar engaged in space chemistry research. After thinking about it, he gave a reply.
He wrote a reply email carefully and answered several of the questions.
For example, the speed of light will not be affected.
The annihilation force field in the universe will only exist inside the star. If it has an impact, it will also affect neutrino rays that can penetrate matter.
On other issues, including those related to space, Wang Hao just explained his own views.
These are all uncertain.
The questions raised by Delete are indeed very profound. He even talked about the reduction of protons and neutrons...
Until now, the 'upgraded elements' created by strong annihilation force fields have been limited to the 'element range'.
Elements are, of course, atoms.
Protons and neutrons are tiny particles, and there is no concept of "upgrading". Whether there will be "downgrading" is naturally impossible to answer.
…
University of California, Irvine, Center for Chemistry at the Limits of Space and Time.
Delete came to the office on the second floor. He is a Hispanic professor. He is 51 years old, but his gray hair and thin body make him look more like 61 or 71 years old.
A few years ago, Delete was still very young, and everyone said he looked less than 40 years old.
In recent years, the reason for rapid aging is also related to the international physical environment. Many results related to the field of astronomy have been overturned by the influence of annihilation physics.
Delete is a top international space chemist who has long been engaged in cosmic ray chemistry research.
Space chemistry, also known as cosmochemistry, is a discipline that studies the origin and distribution of chemical elements and their isotopes, as well as the chemical composition and chemical evolution laws of space materials.
This discipline interpenetrates and develops intertwinedly with disciplines such as space physics, astronomy, and geochemistry.
Delight's research field is more focused on astronomy and physics, and the impact he has received is naturally great. His research results on cosmic rays and cosmic rays have become unrecognized due to the impact of the development of annihilation physics.
After Wang Hao published "Annihilation Physics - Black Hole Theory", the research of Delete's team received a new round of impact. "Black Hole Theory" mentioned electromagnetic storms and considered them to be one of the main sources of 'cosmic rays'.
The analysis of "Black Hole Theory" from the perspective of producing cosmic rays has naturally affected the research results on cosmic rays.
Delet is still very strong. He did not give up because of the impact on his research. Anyway, he sent an email to Wang Hao, hoping to get some information on the impact of annihilation physics on cosmic rays and cosmic rays.
In this way, previous research results can be reshaped.
This is also the motivation that supports him to continue working. Even if he cannot conduct new research, he still hopes to add the part of annihilation physics to improve the original research.
For example, the calculation of the size of the human observable universe.
Under the impact of annihilation physics, the original data was considered inaccurate, and he needed to understand the impact of various fields of annihilation physics on cosmic rays.
In addition, the influence of S wave is also great.
S waves directly create space. If there is a large area covered by S waves in the universe, will it affect the analysis of cosmic rays and the propagation of cosmic rays?
If there is a big impact, there is no point in any measurement they do.
This chapter is not finished yet, please click on the next page to continue reading the exciting content! It is like measuring the straight-line distance from one place to another by measuring the path of the car.
If the vehicle reaches the target location through a zigzag path, it only obtains the data of the final distance, which cannot reflect the straight-line distance between the two places.
Delete turned on the computer with a wry smile, opened his mailbox and checked it as usual, and immediately became serious.
There is a new email in the mailbox, and it turns out to be from...Wang Hao?
"This is Wang Hao's reply!"
Delete's eyes widened. He was very surprised. Many scholars had sent emails to Wang Hao, but only a few could get a reply.
He is also an Amrican scholar.
The competition between the two countries has also affected scholar exchanges, and few American scholars can get a reply from Wang Hao.
"Maybe my question is different? Or maybe it has no impact. It's all a theoretical issue."
Delete opened the email and read it carefully. After reading it for about half an hour, he knew that its content was very helpful to their research.
Although Wang Hao only answered a few questions, he wrote very seriously, and some of the content could not even be found in public information.
These are all written by Wang Hao himself, and their credibility is much higher than the public information.
At the end, Delete also knew why Wang Hao wrote the email so seriously.
At the end of the email, he said that he needed some information on cosmic ray chemistry.
"Data exchange..."
"That's right. Wang Hao could reply to the email personally and was of such great help. Of course, we don't know each other."
Delete accepted it calmly.
In international academic circles, data exchange occurs frequently, especially in research in the same field.
He immediately compiled a lot of information on cosmic ray research, packaged it and sent it to Wang Hao's email. He also wrote, "Professor Wang Hao, this is the information I compiled. I hope it will be helpful to your research."
"If you have any other needs, send me an email and I will deal with it as soon as possible."
After Delete sent the email, he thought of the information Wang Hao wanted, and combined with the public opinion some time ago, he also made some guesses.
"Wang Hao should be studying space? It's real space physics..."
"That's why I use content related to space chemistry, cosmic rays... it may be helpful."
He still shook his head, feeling that compared with Wang Hao, he was far behind the times.
If his judgment is true, space!
That is space!
How to study this kind of physics? It is simply unimaginable.
De Laet feels pity for Croat James.
This guy serves as the person in charge of the Groom Lake Project and has achieved a lot of results.
If judged in the academic circle, James is a top experimental physicist, and he also has good leadership skills and is a real talent.
pity……
He sat in the wrong position and chose the wrong opponent!
Wang Hao's team is already studying 'space' and studying real space physics. By extension, we can imagine issues such as 'space jumps' and 'wormholes'.
Groom Lake Project?
They are still in the initial stage of the 'Strong Annihilation Field'.
How can this compete?
"It's so tragic... He deserves more sympathy than us..." Delete shook his head.