Chapter 672: Public interview, Wang Hao: It takes a long time for theory to move toward experiment!
"It's uncertain what will happen with mass transfer experiments."
"Materials with strong magnetism on the surface will also be affected when they are put into the black ball. If there is no transmission, it is just a thermal reaction. If a special reaction occurs, anything can happen, even in situ or strong.
The S-wave thin layer releases violent energy..."
"Maybe there will be a reaction that annihilates matter. When the time comes, the scope of the impact will be very large."
"This experiment must be done cautiously and cautiously!"
During preparations for the experiment, the dangers of mass transfer experiments were emphasized at every meeting.
Experimenting with the unknown is risky.
Unknown, that is, there is uncertainty. Matter can be transported or directly annihilated. And the complete conversion of mass into energy means huge risks.
Even if it is only one kilogram of material, when completely converted into energy, it will reach 9x10^16 joules, which is converted into electricity, which is 25 billion kilowatt hours of electricity, enough to supply all mankind for half a day.
Such a huge amount of energy erupts at one point, which is enough to withstand the explosive yield of hundreds of millions of tons of TNT, and is a hundred times stronger than the "mother of bombs".
The risks involved can be imagined.
Of course, the probability of matter being directly annihilated during the experiment is very small, and the mass of the material used will not reach one kilogram, but the risk issue still needs to be carefully controlled.
Everyone in the research team is looking forward to the upcoming material transport experiment.
Chen Mengmeng's group is the most excited. They have completed the "empty and anti-empty theory", and the theory provides the underlying support for the experiment.
If the material transfer experiment can occur, it will be equivalent to verifying their theory.
For theoretical physicists, this is the highest honor.
Recently, they have all been concentrating on theoretical work, even Ding Zhiqiang. He knows very well what it means if the research is verified.
That would directly allow him to escape Wang Hao's 'shadow' and truly become a recognized top physicist, enough to win any physics-related award in the world.
Paul Phil-Jones's mood is more complicated.
On the one hand, he hopes that the material transmission experiment can be successful. They are studying wormhole technology.
If the phenomenon of matter transmission is discovered, it means that they have indeed developed wormhole technology, which can be used to support spacecrafts traveling across galaxies in the universe in the future.
On the other hand, he didn't really hope for any development, because the theoretical work was done by Chen Mengmeng's group, and they relied on space particle theory, which conflicted with his 'wave theory'.
"Alas~~"
Now Paul Phil-Jones has some regrets. He feels that he should not have studied with Wang Hao at that time, but shamelessly joined Chen Mengmeng and Helen's group.
Of course, the premise is that the experiment can find it.
Wang Hao's mentality is relatively calm. He doesn't care about wave theory, particle theory and the like. Chen Mengmeng, Helen and Ding Zhiqiang are all his students, and he leads the research and experiments.
Even if he did not participate in the construction of theory, he personally still made the greatest contribution.
For him personally, he no longer cares about scientific research honors and the like. He hopes that research can make breakthroughs and progress.
At the same time, the outside world continues to pay attention to the energy transmission experiment.
Now international public opinion has determined that what they are conducting is an energy transmission experiment.
This research has gone beyond the conventional level of science and technology, and is so advanced that they cannot even think of its application. The only application that most people think of is as a military weapon.
"Energy transmission is too advanced."
"This is a cross-space technology that is hundreds of years ahead of its time. If it were ten years ago, I even think it would be thousands or tens of thousands of years ahead. Whether it will exist in the future is unknown."
"The feeling is completely beyond the control of human beings..."
"In science fiction movies, wormholes are used as spaceships for interstellar navigation, but we don't know whether they can complete energy transmission and whether there will be material transmission in the next step."
"If the basics of material transmission are mastered, then there will be no more obstacles on the road to the universe."
This last point is something that many people have thought of.
In the past hundred years, science and technology have been updated and developed, but there has been no breakthrough in the underlying theory of science and technology, which has also led to the direction of human science and technology development becoming very unclear.
In the past ten years, with the breakthrough of annihilation theory and the development of corresponding technologies, coupled with the current energy transmission experiments, the direction of human science and technology development has become very clear--
Towards the sea of stars in the universe!
Now there are spaceships that can sail in the universe, and if we master ultra-long-distance navigation technology, such as wormhole technology, we can complete cross-star voyages.
The natural next step is interstellar immigration!
When the direction of development became clear, what Li Xin lacked was the technology to build a planetary base.
The construction of the planet base involves too many technologies.
This also makes some companies feel that they have found their future direction, especially large foreign companies.
In recent years, foreign companies have been greatly affected by the limitations of cutting-edge materials and technologies such as first-order materials, superconducting technology, and annihilation technology. Some directly related companies have declared bankruptcy, and many less related companies have also gone bankrupt. On the verge of bankruptcy.
Some companies simply increased their investment in flower growers and relied on the profits and policy support of flower growers to barely survive.
For other companies, investment is severely restricted, and even if they invest, they cannot compete with local companies.
These companies cannot obtain low-cost, sufficient supplies of first-order materials, and cannot obtain the support of advanced annihilation technology, so they have no hope for future development.
Now that it is discovered that there is energy transmission technology, it seems normal that material transmission technology will appear in the future.
The next development direction of mankind is interstellar navigation and even interstellar immigration.
Under the premise that the direction of development is clear, humans will definitely build bases on other planets, which will require a lot of technology, equipment, materials, etc.
"If you want to build a planet base, you will definitely need a lot of technology and equipment, covering almost all scientific and technological fields."
“Having an advantage in one aspect is enough for a company to survive.”
"Even if it's just interstellar mining, we can also research automated mining equipment that can adapt to low gravity and vacuum environments..."
"The only thing we need to worry about is the speed of scientific and technological research. Will material transmission appear within ten years?"
“Will there be interstellar mining in ten years?”
Time is a big issue.
If it is determined that material transmission technology exists, the direction of development will become very clear.
If you master the technologies related to building an interstellar base in advance, you will be one step ahead of your competitors, survive the fierce competition, and even achieve great development.
These support energy transfer experiments gaining more attention.
…
Strong S-wave research base.
Wang Hao has been leading the conduct of experiments, not only the strong S wave production experiments, but also the research on strong magnetic materials in strong annihilation force fields.
They created a strong annihilation force field with a power of about five times. The material used silicon spar, and the surface was covered with a layer of strong magnetism exceeding 2T.
The surface layer of silica crystal is attached with strong magnetism, which is already a very complex design research.
This research was completed by the Institute of Electromagnetic Physics of Capital University. They chose silica spar as the main material, and the surface was coated with a thin layer of composite material used to stabilize electromagnetic properties.
The attachment of strong magnetic fields is also very complicated. First, superconducting circuits are relied on to create strong electromagnetism, and then contact conduction is performed in a vacuum state.
Such a complicated process can only maintain the strong magnetic properties on the surface of silicon spar for less than two seconds.
In other words, the moment the silicon spar adheres to a strong magnetic field, the material must be placed into a strong annihilation force field. If the field force remains in the field for less than one second, the material must be taken out and the surface composite material must be peeled off.
Carry out testing.
The detection is aimed at the magnetization reaction of the internal silica crystal. If the intensity of the magnetization reaction is very weak, it means the experiment is successful.
On the contrary, if the silica crystal is still affected by the strong annihilation force field, it means that the experiment failed.
In the end, the research was successful. The impact on the silica crystal was minimal, and it also met the standards for placement into the black ball.
After the materials were prepared, the only one that was poorly prepared for the experiment was the Thousand Falcon gravity spacecraft.
All the research team needs to do is wait.
While waiting, many issues were discussed internally, including experimental risks and confidentiality issues.
Regarding the issue of confidentiality, the leadership held several discussions, but later found that it was impossible to maintain confidentiality because several experiments on the manufacture of strong S-wave thin layers had to be carried out in advance.
Then the location of the strong S-wave thin layer will definitely be noticed and detected by satellites of other institutions.
The Thousand Falcon gravity spacecraft cannot be kept secret. As long as it goes into space, it will be locked by satellites.
In the end, the discussion decided to proceed normally.
"They already know about energy transmission, and it doesn't matter if the material transmission experiment is discovered."
"If the experiment fails, nothing happens."
"The experiment is successful, and the technology may be used on Earth, so there is no point in keeping it secret..."
"This is the technology of the future."
"If the experiment can be successful, and it will be used in interstellar navigation of spacecraft in the future, the black balls that need to be manufactured will be very large and will also need to be manufactured in the universe."
"That will be a very, very huge project, and we can't carry it out alone..."
Some people also consider external deterrence.
Now the technology of flower growers has been recognized as the best in the world, and is far behind other countries.
Semi-public experiments are also a kind of deterrent. After mastering the material transmission technology, it can be said to be a cross-dimensional strike in the military, and there will be no more deliberately created conflicts in the future.
With absolute technological advantages, it is most beneficial to continue to develop steadily. If we can truly go into the universe, competition on earth seems to be unimportant.
Under this general policy, the science and technology department has disclosed a lot of experiment-related content, including the characteristics of strong S-wave thin layers, the basic theory of strong S-waves, including super diamonds and other new materials, etc.
Before the physical transmission experiment, the science and technology department also arranged interviews, focusing on the content of public opinion.
The interview was conducted at Xihai University.
Wang Hao made a special trip back to Xihai University, mainly to rest for a few days during the waiting period before the new experiment, and also participated in the interview work.
He came face to face with the First Media reporter.
Wang Hao first introduced the research, "Actually, what we are studying is not energy transmission, but a strong S-wave creation experiment."
"Energy transmission is just a special phenomenon discovered during the research process, and can also be understood as a characteristic of field force."
"We focus on experiments and theory as two directions of work."
"In public opinion, many people talk about energy transmission and material transmission, saying that our research is wormhole technology."
"This statement is correct to a certain extent."
The reporter was obviously very surprised after hearing this. He never expected that Wang Hao would publicly admit that he was conducting wormhole research.
This news is really shocking.
Wang Hao smiled nonchalantly and continued, "Although the general direction is to research wormholes, in fact, we are not sure that we can research them."
"Wormholes, that is, ultra-long-distance material transmission technology, only exist in science fiction movies after all."
"Several of my students, Chen Mengmeng, Ding Zhiqiang, and Helen, formed a group. They completed a new theory called the theory of holes and anti-holes."
"You can tell from the name that they have analyzed space. Their theory supports the existence of material transmission technology. I am not sure whether the theory is correct, and it will take a long time to move from theory to experimental verification."