The metal materials laboratory is a national key scientific research institution, which can naturally be described as full of talents, with 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 the research of metal materials.

He has two generals under him, one is Yuan Yang and the other is Shen Huiming, both of whom are very good researchers who have received funding from the 'Outstanding Youth' project, and they can 'sit on one side' alone.

Yang Yuan is an expert in thermal properties and chemical analysis.

Shen Huiming is engaged in the research of radiation analysis of metal compounds, and his previous projects have also involved nuclear radiation research, and he has done research on "excited radiation" of mutated iron materials, which is also professionally appropriate.

Therefore, Shen Huiming is very confident in taking over the research, and at the same time he is very much looking forward to it, because the research was proposed by Wang Hao, and Wang Hao has completed too many top achievements, even if it is just to contribute to the research, he feels that it is very worthwhile.

After returning to his office, Shen Huiming gathered several members of the group, including two associate researchers and four doctoral students, to discuss the research of "excitation radiation".

When they heard that participating in the research of mutant iron materials was still the direction proposed by Wang Hao, everyone in the group was very interested, especially several doctoral students, who were not qualified to come into contact with mutated iron materials under normal circumstances.

Although Academician Ma Kaiping has a research project on mutated iron materials, if he wants to participate in it, he must have at least an associate researcher position.

Now it is Shen Huiming who has received a job alone, and they have the opportunity to participate in it.

The people in the group were very excited to discuss, they were all professionals in the field, and they must have thought of a series of contents, and also raised very important questions-

It's still the direction!

"The scope of this research is too broad, and there can be many kinds of excited radiation, including conventional radiation waves, radioactive materials, self-heating radiation, as well as electronic waves and electromagnetic light waves.....

"How do you excite it? Is it a strong light, or is it a special radiation?" "With so many directions, how do we do testing?"

They already know that there is a time limit for the study.

If there are no results in a short period of time, Shen Huiming will temporarily give up the research and join Ma Kaiping's superconductivity analysis direction, they are not qualified to do research alone, and the research will definitely be suspended.

Shen Huiming thought about it and felt that time was pressing, mainly because of the talk with Wang Hao about Ma Kaiping, he only knew that it was 'excitation radiation' research, and he didn't know much about it.

He thought about it for a while, and simply sent an email to Wang Hao.

Wang Hao's daily work is to deal with emails, and many scholars will send emails, some of which are very important emails that need to be replied to, and some of which are related to research questions.

When he saw the email sent by Shen Huiming, he was full of affection for Academician Ma Kaiping of the Metal Materials Laboratory, and felt that the other party really took what he said to heart, and found an excellent researcher to do research in this area alone.

This research is related to the theory of annihilation, and Wang Hao naturally attaches great importance to it, and he wrote a reply to Shen Huiming very seriously, saying his thoughts.

Later, he felt that the words were not clear, so he simply called Shen Huiming and said carefully, "The purpose of stimulating radiation is to hope to find a new energy wave."

"This kind of energy wave is different from ordinary energy waves, and may have some special properties, which can be understood as 'mutation waves', and my research needs to find this kind of wave.....

"It will be pure energy waves, and your experiments can exclude particle-laden rays, which are not needed for detection similar to cosmic rays."

"I think the direction is ...... Can you try to detect high-frequency radiation first?"

High-frequency rays, refers to electromagnetic waves (light waves), the types are divided by frequency and wavelength, the higher the frequency, the shorter the wavelength, the higher the ray intensity, divided by intensity, from low to high there are infrared, visible, ultraviolet, X-ray, gamma rays, etc.

The high-frequency rays mentioned by Wang Hao will naturally be X-rays at the lowest, and may even have a wavelength of less than 0.1

Nano gamma rays.

In this regard, he was not sure, but added, "You can give priority to testing in this area, and tell me in time whether you find it or not, and we will discuss it when the time comes."

"This research is very important, Professor Shen, thank you for your hard work!"

The study of "Mutant Waves" was inspired by the "Dead Universe" that everyone discussed, and as the annihilation power continues to increase, the particles existing in the universe will also change.

Energy is also made up of particles, nothing more than particles without mass.

"Iron changes in the form of electron transitions, and the discovery of mutated iron allows us to affirm this change."

Facing everyone in the conference room, Wang Hao said very seriously, "Although we haven't found the second mutated element, we can give a definition of this change according to the mutation of the iron element."

"The principle of the mutation of iron is that under the special environment of strong annihilation, the electrons outside the nucleus have an orbital transition."

"The mutant iron element that has been discovered now can be used as a migrating first-order iron element, and the reason why such a definition is given is because it has been found in experiments that the first-order iron element can still be affected by strong annihilation force to produce magnetization reactions, so it is likely that there are second-order, third-order, or even higher-order iron elements."

"Of course, the so-called second-order and third-order are only theoretical inferences, and we are only temporarily defining them in this way." The rest of the room discussed it, and they also felt that the definition of the 'first order of electron migration' was very consistent with the results of the current experiment.

All of you are professionals.

Wang Hao just started at the beginning, and some people had already reacted.

Huang Zhen immediately said, "Academician Wang, since iron can undergo electron transitions, smaller particles, including atoms, protons, and even energy particles, may also change internally due to the increased annihilation force?"

"Yes!"

Wang Hao nodded approvingly, "Iron is a large atom, composed of neutrons, protons, and electrons, and the annihilation force is a spatial squeeze effect, and the electron migration phenomenon of the element can be understood as the overall embodiment of the impact of smaller units."

"So, I think it's likely that the energy particles will have some kind of change in their behavior due to the increased annihilation power."

"And if you want to create such an energy wave, you must start with the changed material, and the only one currently is the first-order iron ......"

"It's the theory of the whole. If you want to find evidence to support your theory, you have to 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 research work of the team, "At present, special energy waves are still being studied, but we are doing theoretical work, so we can assume that special energy waves exist, and carry out theoretical improvement work on this basis."

That's what the team is going to do.

Experimental research has nothing to do with them, they do theoretical research work, and it can be temporarily assumed that special energy waves exist.

This study is a refinement of the Theory of the Expansion of the Universe.

The previously published "Theory of Cosmic Expansion" research is not perfect, only including annihilation energy, space conduction and other parts, and there is no follow-up content, and the part about the increasing annihilation force is only a hypothetical situation to explain the phenomenon of accelerated expansion of the universe.

The current research is to study the development of the universe, to study the changes brought to matter in the context of increasing annihilation, and to study the future of the universe on this basis.

In this way, a whole set of theories of the universe can be completed, which can be used as the basis for the theory of annihilation. Once you have a certain direction, everyone gets to work.

Although the content of the research does not sound close to reality, in fact, the core of the research is still around the effect of elemental electronic transitions, and special energy waves are 'assumed to exist', which can be used as an important basis to support the theory if it can be discovered in subsequent experiments.

Even if no special energy waves are discovered, there is only a lack of evidence to support the theory, and their research will still be an important achievement of the annihilation theory.

Because....

The study of theoretical physics is not supported by experiments in the first place, otherwise it would not be 'theoretical physics', but 'real physics'.

......

Wang Hao attaches great importance to theoretical research, and at the same time hopes to discover special energy waves, and he still hopes for Shen Huiming's research.

For the next period of time, he has been paying attention to the research of Shen Huiming's team, and talks to Shen Huiming about experimental problems every two or three days.

Shen Huiming will also keep telling Wang Hao about the research situation, but the speed of research is very slow, and there are no findings in several consecutive experiments.

"Academician Wang, we have done a lot of tests, but we have found nothing."

"After yesterday's experiment, our group conducted a detailed demonstration, and some people believe that there are forms of special energy waves, which may also be electron waves or special radiation."

Shen Huiming asked, "Academician Wang, is it possible that the special energy wave is not an overclocked electromagnetic wave? Or is the frequency too high to detect?"

Wang Hao frowned as he thought about it, he couldn't give a definite answer.

He personally thinks that it is more likely that a special energy wave will be an electromagnetic wave, but he cannot be 100% sure that it is not another type of energy wave.

In addition, he was not 100% sure that he would be able to create a special energy wave by excitation radiation test.

But in any case, what if you have to work the idea of what if you can create a special energy wave by stimulating radiation experiments, but you miss it because you don't stick to it?

"Well, I'll discuss it with the others and get back to you tomorrow."

After Wang Hao finished speaking, he went to the conference room and summoned the others to discuss the form of the special energy wave.

Whether or not there are special energy waves is a question, and it is almost impossible to discuss the "form of existence".

So the focus of their discussion was, "What will happen to light waves in the context of increasing annihilation?"

"More often?" "No!"

This statement was immediately refuted by Paul Phil-Jones, "Experiments have shown that high-frequency and low-frequency rays are subject to the same annihilation field. It doesn't make sense to be more frequent."

Wang Hao listened and nodded, he didn't think about the form of expression carefully, and after discussing it with everyone, he found that the initial idea was wrong.

High-frequency rays, it really doesn't make sense.

Although no gamma-ray experiments have been conducted, they use X-rays to irradiate a strong annihilation force field, and the data obtained are consistent with conventional lasers.

At this time, Zhang Zhiqiang suddenly spoke, "Since it is an energy wave, we may be able to analyze it from the perspective of energy?"

"Actually, I've always had a question, does the energy increase due to the iron migration?"

When this sentence came out, it immediately made the eyes of others light up.

Wang Hao also looked at Zhang Zhiqiang with the same admiration, he didn't expect that the "incidental" role would be able to say such a key question.

Zhang Zhiqiang felt everyone's eyes, and suddenly felt a little proud, "Actually, I just think about it casually, I have always said that the magnetization effect increases the energy of matter, and since it has reached the level of electron migration, the energy should naturally increase."

"But how does the same temperature, the same mass, increase the energy?"

"Nuclear energy, electronic energy!" Helen immediately said two key words, "There are changes in the nucleus, and the electron transition will inevitably lead to an increase in electron energy and nuclear energy."

The others nodded their heads.

Paul Phil-Jones said, "Since the electron energy and nuclear energy of the elements increase, then the reaction is to the energy wave......

"Outwardly, the energy will increase?"

Helen added, "Maybe it's faster?"

"Faster? Under normal conditions, it can be faster than the speed of light?" Others also discussed.

Helen's statement undoubtedly subverts the theory of the speed of light, which is the fastest under conventional conditions, but involves a strong annihilation field, theoretically speaking

, the energy wave of the strong annihilation force field will be faster.

This is the same as the 'weak annihilation field', that is, the slowdown of light in the anti-gravity field.

Wang Hao shook his head and said, "Whether the speed will increase or not, Professor Shen Huiming's experiment is also difficult to detect, but the increase in energy may become a breakthrough point."

After the internal discussion ended, Wang Hao immediately contacted Shen Huiming.

After listening to the idea of 'energy increase', Shen Huiming immediately had the idea of the next step of the experiment, "We will measure the energy of the radiated light waves."

"If the overall energy measured is significantly higher than the conventional data, it proves that there is a high-energy light wave in it."

Wang Hao is also looking forward to it.

For the next period of time, he devoted himself to theoretical research and waited for the results of Shen Huiming's experiments.

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 achievement in the physics world, and a team led by Professor Max Straman of the Max Planck Institute Materials Center determined in detail the thermal radiation properties of 'first-order iron'.

Through several experimental verifications, they determined that the thermal radiation intensity data of 'first-order iron' was significantly higher than the conventional value.

"The standard definition of thermal radiation is the value of blackbody radiation, which is an idealized model that absorbs electromagnetic radiation at all wavelengths with a constant absorption ratio of 1."

"Previous experiments have shown that blackbody radiation is only related to temperature, not to materials. The blackbody radiation data is the same for any substance at a fixed temperature."

"We measured the data of 'first-order iron' at four temperature values and found that it was about 120 percent higher than the conventional data."

"The first time I measured it, this obvious data caught my attention."

"So we did a lot of experiments in a row, measured multiple data, and the results were much higher."

"Although we can't give an exact value, we can be sure that the thermal radiation intensity of first-order iron is about 120% higher at 230K, and the higher the temperature, the higher the thermal radiation intensity is higher than the conventional multiplier."

"When the temperature reaches 750 K, the intensity of thermal radiation is even 300 percent higher." "This is an amazing discovery!"

All physicists see it this way, because Max-Straman's experiments have turned conventional physics results upside down.

Past experiments have proved that the thermal radiation data is independent of the material, and the thermal radiation intensity data is the same for all substances at the same temperature.

Now that a substance has suddenly appeared, the thermal radiation data has improved significantly, which is obviously inconsistent with previous studies, of course, considering that the research object is first-order iron, a product of a strong magnetization reaction, to a certain extent, it can be accepted.

Even so, the research has attracted a lot of 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 had confidence in the 'excitation radiation' experiment.

Thermal radiation and excited radiation are both radiation studies for the substance itself, and they are related to a certain extent.

Since the intensity of thermal radiation has increased compared with conventional matter, the electromagnetic waves created by excitation radiation should also change.

Really!

Only two days later, Wang Hao received news from Shen Huiming that their experiment had made a major breakthrough.

Shen Huiming said excitedly, "Academician Wang, we have found in the excitation radiation experiment that the total energy of the low-frequency light waves produced is 6.3% higher than the conventional average!"

"This is the conclusion of many experiments, and the value fluctuates in the range of one hundredth." "There's probably a special energy wave in there, the kind of special energy wave you were talking about..."

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 for follow-up research!"

Without the slightest hesitation, Shen Huiming immediately agreed.

It was the study of the strong annihilation force field, the most cutting-edge and important physics research in the world, and I don't know how many top physicists hoped to participate in the research, but unfortunately there was no chance at all.

Even if it's just a glimpse of the strong annihilation field, it feels like it's all worth it.

Shen Huiming hung up the video call, trembling with excitement all over his body, 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 voice was heard outside, "Huiming, are you there?" "Please come in!"

Shen Huiming hurriedly stood up and shouted politely, "Academician Ma!"

Ma Kaiping pushed the door and walked in, sat on the chair without hurry, and asked, "Huiming, have you read the latest news?" Max Planck Society, Professor Straman, Thermal Radiation Research."

"Looked." Shen Huiming nodded lightly.

Of course, he cared about the news in the field of mutant iron research, or in the field of radiation, and he got the news as soon as possible, but he was constantly sorting out the data at that time, and he just glanced at it, and he was a little envious in his heart.

Now I don't envy it at all.

Although I am not sure what the research results of my group mean, I only look at the reaction of Academician Wang Hao and know that it will not be a small achievement.

Ma Kaiping nodded and said, "I was just thinking that it only took a month for Straman to have such a significant result, and radiation research is indeed a good direction."

"We do research on superconductivity properties, and it is not easy to achieve results in a short period of time."

"Therefore, I think we should also do research in many fields, and you can also try it in the direction of radiation of new materials. Next Monday, we'll have an internal meeting and we'll talk about it together."

Shen Huiming hesitated and said, "This, Academician Ma..... "What's wrong?"

"I don't have time, Academician Wang Hao invited me to Xihai University to use the strong annihilation force field to do follow-up experiments.....

Ma Kaiping opened his mouth slightly, and was stunned for a long time before he said, "You already have results?"

"A small discovery is that I found an anomaly in the data of low-frequency light waves, and after talking to Academician Wang, he invited me to go over the experiment."

"Oh."

Ma Kaiping agreed and took a deep breath, grinned reluctantly, and said, "Since Academician Wang has spoken, you can go."

After he finished speaking, he turned around and walked out, muttering in a low voice, "Little discovery, small discovery..... "It's just a small discovery, probably related to Academician Wang's research."

"It's not a big deal~~~"