The Metal Materials Laboratory is a national key scientific research institution, and it can naturally be described as full of talents. There are four academicians of the two academies, including three academicians of the Academy of Sciences and one academician of the Academy of Engineering.
Ma Kaiping is an academician of the Academy of Sciences and a top scholar in metal materials research.
He has two generals under his command, one is Yuan Yang and the other is Shen Huiming. They are both very good researchers and have received funding from the "Outstanding Youth" project. They can "take charge" individually.
Yuan Yang is an expert in thermal properties and chemical analysis.
Shen Huiming is engaged in radiation analysis research on metal compounds. His past projects also involved nuclear energy radiation research, and he did research on "stimulated radiation" of mutated iron materials, which is also professionally relevant.
Therefore, Shen Huiming was very confident when he took over the research, and he was also looking forward to it, because the research was proposed by Wang Hao. Wang Hao has completed too many top-notch results. Even if he just adds to the research, he feels that it is very worthwhile. of.
After returning to his office, Shen Huiming summoned several people in the group, including two associate researchers and four doctoral students, to discuss the research on "stimulated radiation".
When they heard that participating in the research on mutated iron materials was the direction proposed by Wang Hao, everyone in the group was very interested, especially several doctoral students. Under normal circumstances, they were not qualified to come into contact with mutated iron. material.
Although Academician Ma Kaiping has a research project on mutated iron materials, at least one needs to be an associate researcher if he wants to participate.
Now it was Shen Huiming who received a job alone, and they had the opportunity to participate in it.
The people in the group were discussing very excitedly. They were all professionals in the field. They must have thought of a series of contents and raised important questions——
It’s still the direction!
"The scope of this research is too broad. There are many types of exciting radiation, including conventional radiation waves, radioactive substances, self-heating radiation, electronic waves, and electromagnetic light waves..."
"How to excite it? Is it irradiation with strong light or special rays?" "How do we detect it from so many directions?"
They already know that research has time limits.
If no results can be produced in a short period of time, Shen Huiming will temporarily give up the research and join Ma Kaiping's superconducting analysis direction. They are not qualified to conduct research alone, and the research will definitely be suspended.
Shen Huiming thought about it and felt that time was tight, mainly because he only knew that he was talking about Ma Kaiping with Wang Hao, but he didn't know much about the research on "stimulated radiation".
He thought for a moment and simply sent an email to Wang Hao.
What Wang Hao must do every day is to deal with emails. Many scholars will send emails, some of which are very important emails that need to be responded to, and some of which involve research issues.
He saw the email sent by Shen Huiming, and he was very fond of Academician Ma Kaiping of the Metal Materials Laboratory. He felt that the other person really took what he said to heart and found an excellent researcher to do this alone. Research.
This research was related to the annihilation theory, and Wang Hao naturally took it very seriously. He wrote a reply to Shen Huiming seriously and expressed his thoughts.
Later, I felt that the text was not clear, so I called Shen Huiming and explained in detail, "The purpose of exciting radiation is to find a brand new energy wave."
"This kind of energy wave is different from ordinary energy waves. It may have some special properties and can be understood as a 'mutated wave'. My research needs to find this kind of wave..."
"It will be a pure energy wave. Your experiment can exclude rays with particles. Detection similar to cosmic rays is not needed."
"I think... we can try detecting high-frequency rays first?"
High-frequency rays refer to electromagnetic waves (light waves). The types are divided by frequency and wavelength. The higher the frequency, the shorter the wavelength, and the higher the ray intensity. They are divided by intensity. From low to high, there are infrared rays, visible light, and ultraviolet rays. , X-rays, gamma rays, etc.
The high-frequency rays Wang Hao mentioned are naturally X-rays at their lowest, and may even have wavelengths less than 0.1
Nanoscale gamma rays.
In this aspect, he was not sure, so he added, "You can give priority to testing in this area, and let me know in time whether you find anything or not. We will discuss it when the time comes."
"This research is very important, Professor Shen, thank you for your hard work!"
"The study of mutation waves" is inspired by the "dead universe" discussed by everyone. As the annihilation force continues to increase, the particles existing in the universe will also change.
Energy is also made up of particles, but they are particles without mass.
"Iron changes in the form of electron transitions, and the discovery of mutated iron allows us to confirm this change."
Facing everyone in the conference room, Wang Hao said seriously, "Although we have not discovered the second mutated element, we can give a definition of this change based on the mutation of the iron element."
"The principle of the mutation of iron element is that under the special environment of strong annihilation force, electrons outside the nucleus undergo orbital transitions."
"The mutated iron elements discovered now can be regarded as transitional first-order iron elements. The reason for this definition is that it was found in experiments that first-order iron elements can still be affected by strong annihilation forces to produce magnetization reactions, so it is very There may be second order, third order, or even higher order.”
"Of course, the so-called second order and third order are just theoretical inferences. We are just defining it this way temporarily." Others in the conference room discussed it and they also felt that the definition of the first order of electronic transition was very consistent with the current experimental results. .
Everyone present was a professional.
Wang Hao just started, and people already reacted.
Huang Zhen immediately said, "Academician Wang, since iron elements can undergo electronic transitions, then smaller particles, including atoms, protons, and even energy particles, may also undergo internal changes when driven by the enhanced annihilation force?"
"right!"
Wang Hao nodded in admiration, "Iron element is a large atom, which is composed of neutrons, protons, and electrons. The annihilation force is the squeezing effect of space. The electron transition phenomenon of the element can be understood as the effect of smaller units. Overall reflection."
"So, I think that the energy particles are affected by the increased annihilation force, and their properties are likely to change in some way."
"And if you want to create such energy waves, you must start with modified materials. Currently, the only one is first-order iron..."
"This is the overall theory. If you want to find evidence to support the theory, you must find special energy waves."
"The biggest feature of this energy wave is that it cannot be annihilated under the action of a conventional strong annihilation force field."
Wang Hao talked about the theoretical direction in detail, and then talked about the team's research work, "Currently special energy waves are still being studied, but we are doing theoretical work, so we can assume that special energy waves exist, and
Based on this, we will carry out theoretical improvement work.”
This is what the team has to do.
Experimental research has nothing to do with them. What they are doing is theoretical research work, and it can be temporarily assumed that special energy waves exist.
This research is a perfection of the "Cosmic Inflation Theory".
The previously published "Theory of Cosmic Inflation" research is not yet complete, and only covers annihilation energy, space conduction, etc., and has no follow-up content. The part about the increasing annihilation force is only a hypothetical explanation of the accelerated expansion of the universe.
That's all.
The current research is to study the development of the universe, study the changes brought to matter under the background of the increasing annihilation force, and study the future of the universe based on this.
In this way, a complete set of universe theories can be completed, which can be used as the basic theory of annihilation theory. After having a determined direction, everyone started working.
Although the research content does not sound close to reality, in fact, the core of the research still revolves around the electronic transition effect of elements. Special energy waves are 'assumed to exist'. If subsequent experiments can discover it, it can be used as an important basis to support the theory.
Even if no special energy waves are discovered, there is just a lack of evidence to support the theory, and their research will still become an important result of the annihilation theory.
because....
Research in theoretical physics has no experimental support, otherwise it would not be 'theoretical physics', but 'real physics'.
...
Wang Hao attaches great importance to theoretical research and also hopes to discover special energy waves. He still places his hope on Shen Huiming's research.
In the following period, he has been following the research of Shen Huiming's team and discussing experimental issues with Shen Huiming every two or three days.
Shen Huiming would also keep telling Wang Hao about the research situation, but the research progressed very slowly, and no findings were found in several consecutive experiments.
"Academician Wang, we have done a lot of tests and found nothing."
"After yesterday's experiment, our group conducted detailed demonstrations. Some people believe that special energy waves exist in the form of electron waves or special radiation."
Shen Huiming asked, "Academician Wang, is there a possibility that the special energy wave is not an overfrequency electromagnetic wave? Or is the frequency too high to be detected?"
Wang Hao frowned as he thought. He couldn't give a definite answer.
He personally believes that special energy waves are more likely to be electromagnetic waves, but he cannot be 100% sure that they are not other types of energy waves.
In addition, he is not 100% sure that special energy waves can be created by stimulating radiation experiments.
But no matter what, you must work hard to find a way. What if a radiation experiment can be stimulated to create a special energy wave, but you missed it because you didn't persist?
"Well, let me discuss it with the others and give you an answer tomorrow."
After Wang Hao finished speaking, he went to the conference room and summoned others to discuss the form of special energy waves.
Whether special energy waves exist or not is a question. It is almost impossible to discuss the "form of existence".
Therefore, the focus of their discussion is, "As the annihilation force continues to increase, what will happen to the light waves?"
"Higher frequency?" "No!"
This statement was immediately rejected by Paul Phil-Jones, "Experiments can prove that high-frequency rays and low-frequency rays will be affected by the same annihilation force field. There is no point in having a higher frequency."
Wang Hao nodded as he listened. He had not thought carefully about the issue of expression. After discussing it with everyone, he realized that his initial idea was wrong.
High-frequency rays are indeed meaningless.
Although no experiments related to gamma rays have been conducted, they used X-rays to irradiate a strong annihilation force field, and the data obtained are consistent with conventional lasers.
At this time, Zhang Zhiqiang suddenly said, "Since it is an energy wave, maybe we can analyze it from an energy perspective?"
"Actually, I have always had a question: does the energy increase when the iron element transitions?"
When he asked this question, other people's eyes immediately lit up.
Wang Hao also looked at Zhang Zhiqiang with admiration. He didn't expect that the "incidental" character could actually tell such a key question.
Zhang Zhiqiang felt the eyes of everyone and suddenly felt a little proud, "Actually, I just thought about it. I have always said that the magnetization effect increases the energy of matter. Since it has reached the level of electronic transition, the energy should naturally increase."
"But, with the same temperature and the same mass, how does the energy increase?"
"Nuclear energy, electronic energy!" Helen immediately said two key words, "There are changes inside the atomic nucleus. The electron transition will inevitably bring electronic energy, and the nuclear energy will increase."
Others also nodded.
Paul Field-Jones said, "Since the electronic energy and nuclear energy of the element increase, then it will react to the energy wave..."
"The external manifestation is that the energy will increase?"
Helen added, "Maybe it will be faster?"
"Faster? Under normal circumstances, can it be faster than the speed of light?" Others also discussed it.
Helen's statement undoubtedly subverts the speed of light theory. Under normal circumstances, the speed of light is the fastest, but when it involves a strong annihilation force field, theoretically speaking
The energy wave of the strong annihilation force field will be faster.
This is the same as the speed of light slowing down in a 'weak annihilation force field', that is, an anti-gravity field.
Wang Hao shook his head and said, "Whether the speed will increase is difficult to detect in Professor Shen Huiming's experiment, but the increase in energy may become a breakthrough point."
After the internal discussion meeting, Wang Hao immediately contacted Shen Huiming.
After Shen Huiming heard the idea of 'energy increase', he immediately had an idea for the next step in the experiment, "We will measure the energy of the radiated light wave."
"If the overall energy measured is significantly higher than the conventional data, it proves that there are light waves with higher energy."
Wang Hao looked forward to it very much after hearing this.
In the following period, he devoted himself to theoretical research and waited for Shen Huiming's experimental results.
Soon, half a month passed.
Wang Hao is sitting in his office, looking at the latest results of research on 'first-order iron'.
It was a sensational result in the physics world. At the Max Planck Society's Materials Center, a team led by Professor Max Stramann measured the thermal radiation characteristics of 'first-order iron' in detail.
Through multiple experimental verifications, they determined that the thermal radiation intensity data of 'first-order iron' was significantly higher than conventional values.
"The standard definition of thermal radiation is the value of blackbody radiation. Blackbody radiation is an idealized model. Its absorption ratio of electromagnetic radiation of all wavelengths is always 1."
"Previous experiments have shown that blackbody radiation is only related to temperature and has nothing to do with materials. The blackbody radiation data of any substance at a fixed temperature is the same."
"We measured the data of 'first-order iron' at four temperature values and found that it was about 120% higher than the conventional data."
"When I measured it for the first time, this obvious data attracted my attention."
"So we conducted multiple experiments in succession and measured multiple data, and the results were much higher."
"Although it is impossible to give an accurate value, we can determine that at a temperature of 230K, the thermal radiation intensity of first-order iron is about 120% higher. The higher the temperature, the higher the thermal radiation intensity is compared with the conventional one."
"When the temperature reaches 750K, the thermal radiation intensity is even 300% higher." "This is a very amazing discovery!"
All physicists see it this way, because the Max-Straumann experiment overturned the results of conventional physical research.
Past experiments have proven that thermal radiation data has nothing to do with materials. At the same temperature, all materials have the same thermal radiation intensity data.
Now a substance suddenly appears, and the thermal radiation data has significantly improved, which is obviously inconsistent with previous research. Of course, considering that the research object is first-order iron, a product of strong magnetization reaction, it is acceptable to a certain extent.
Even so, the research has attracted widespread attention from the international physics community.
Wang Hao also paid attention to the research. He thought about the problem of high thermal radiation intensity, and suddenly gained confidence in the "stimulated radiation" experiment.
Thermal radiation and excited radiation are both radiation studies conducted on the substance itself, and are related to a certain extent.
Since the intensity of thermal radiation has increased compared to conventional matter, the electromagnetic waves produced by the excited radiation should also change.
really!
Only two days later, Wang Hao received news from Shen Huiming that their experiment had achieved a major breakthrough.
Shen Huiming said excitedly, "Academician Wang, we found in the excited radiation experiment that the total energy of the low-frequency light waves produced was 6.3% higher than conventional ones on average!"
"This is the conclusion of many experiments, and the numerical fluctuation range is one percent." "It is very likely that there is the special energy wave you mentioned..."
Wang Hao took a deep breath and said excitedly, "Great!"
After he finished speaking, he immediately made an invitation, "Professor Shen, your research is very important. I would like to invite you to participate in the annihilation force field experiment and use the strong annihilation force field to conduct follow-up research!"
Shen Huiming agreed immediately without any hesitation.
That is the study of strong annihilation force fields, the most cutting-edge and most important physics research in the world. I don’t know how many top physicists hope to participate in the research, but unfortunately they don’t even have the chance.
Even if you just experience the powerful annihilation field, it feels like everything is worth it.
Shen Huiming hung up the video call, his whole body was shaking with excitement, and the joy in his heart was written on his face, and he couldn't hide it at all.
There was a knock on the office door, and an old man shouted from outside, "Huiming, are you there?" "Please come in!"
Shen Huiming stood up quickly and politely shouted, "Academician Ma!"
Ma Kaiping opened the door and walked in. He sat down on the chair calmly and asked, "Huiming, have you read the latest news? Max Planck Society, Professor Strahmann, thermal radiation research."
"I saw it." Shen Huiming nodded lightly.
Of course he was concerned about the news in the field of mutated iron research, and it was also in the field of radiation. He got the news immediately. However, he was just sorting out the data at that time, so he only glanced at it, feeling a little envious in his heart.
Now I am not envious at all.
Although I am not sure what my group's research results actually mean, I know that it will not be a small achievement just by looking at Academician Wang Hao's reaction.
Ma Kaiping nodded and said, "I was just thinking that it only took Straman a month to achieve such significant results. Radiation research is indeed a very good direction."
"We are doing research on superconducting properties, and it is not easy to achieve results in a short time."
"So, I think we should do research in multiple fields. We can also try the radiation direction of new materials. Didn't Academician Wang talk about exciting radiation research last time? We will have an internal meeting next Monday to discuss it together."
Shen Huiming hesitated and said, "Well, Academician Ma..." "What's wrong?"
"I don't have time. Academician Wang Hao invited me to Xihai University to conduct follow-up experiments using strong annihilation force fields...
Ma Kaiping opened his mouth slightly and was stunned for a long time before saying, "Have you already achieved results?"
"A small discovery was that I discovered an anomaly in the data of low-frequency light waves. I told Academician Wang about it, and he invited me to come over and experiment."
"oh."
Ma Kaiping agreed, took a deep breath, forced a smile, and said, "Since Academician Wang has spoken, you can go ahead."
After he finished speaking, he turned around and walked out, muttering in a low voice, "Little discovery, little discovery..." "It's just a small discovery, probably related to Academician Wang's research."