From University Lecturer to Chief Academician

The project team of replicating the abnormal explosion of the experiment finally came to two conclusions, one is a 'pure energy explosion' and the other is a 'disordered explosion'.

In addition to excluding the factor of 'strong annihilation field's own burst of energy', the former also represents a 'particle energy burst'. As for how the energy burst occurs specifically, it needs to be studied later.

The latter refers to a burst of energy that has no fixed location.

Before the project team's experiment began, Wang Hao expressed his personal opinion that explosion accidents and 'neutron bursts', using neutron energy bursts as an example, the strong annihilation force field created by the experiment is an approximately circular thin-layer structure. There are several points where the energy mainly explodes.

There is no pattern to these points.

There are also energy burst points in other locations, but the intensity is relatively small.

Therefore, the energy burst process can be understood as a 'multi-point disordered burst'. Judging from the excitation of neutrons by the nuclear reactor inside the experimental device, the thin layer of strong annihilation force field when neutrons collide is indeed disordered, unless complex processes are carried out. Design, control the direction of excited neutrons, otherwise it is impossible to find the rules.

After all, the experiment is over.

There will definitely be many paper results in the future, and all the scholars participating in the experiment will gain a lot. There is no problem in writing a novel paper at least.

A scholar who participated in the experiment said, "The world of physics is about to usher in a feast of research on particles and annihilation force fields!"

"This comes from experimentation."

"We have experimented with particle energy bursts, and everyone involved has gained a lot. This may become the starting point of new physics..."

Many scholars use the term "physics feast" to describe the experiment.

In fact, there were no more than a hundred physicists participating in the experiment, and the total number of people participating in the experiment was only about 400.

If we compare it with international large-scale physics experiment projects, the European Organization for Nuclear Organization's particle collision experiment has thousands of people directly involved in the work. Each experiment involves a large number of physicists, and a small experimental team has dozens of people. scale.

Compared with this experiment, the scale is much different.

However, the content is different.

It is very important for the research of physical experiments to be novel. In the past few decades, particle collision experiments have been carried out, and most of the contents have been thoroughly studied. If you want to make new discoveries, you must greatly increase the collision intensity, but it is found that It's just new particles or particle signals, and it has little to do with the ordinary scholars participating in the experiment. They are more just 'participants'.

The current experiment belongs to a 'new field', a field that humans have never explored before. A strong annihilation force field combined with particle energy bursts, and you can write a paper if you find any content.

There are also many voices of discussion in the international physics field.

The project team came to two conclusions, while the physics community is discussing deeper principles. "The particle energy burst in the strong annihilation field may have a principle similar to the energy in a black hole."

"Maybe we're discovering a reaction in a black hole."

"Maybe it's antimatter. There are only a few ways for particle energy to explode known to mankind. It's not sure whether any particles disappeared in the experiment, but maybe the annihilation of positive and negative particles occurred..."

This statement has been recognized by many people.

Not only Wang Hao can think of antimatter, but others can also think of it, because there are only a few ways of energy explosion at the particle level, such as nuclear reactions and particle collisions.

The possibility of particle collision and energy explosion in the experiment is very small. As for nuclear reactions, it has been directly ruled out. If there is no new way of particle energy explosion, 'antimatter and antimatter annihilate each other and explode energy' becomes 'reasonable'. 'explanation of.

After the possibility of ‘antimatter’ was raised, the discussion in the physics community became even more heated.

Humanity has always been looking for antimatter.

Many physicists are engaged in antimatter research, and they hope to find evidence of the existence of antimatter in experiments.

Did the current experiment directly produce an annihilation explosion of matter and antimatter?

This is so attractive!

The international physics community's enthusiasm for experiments has not been transmitted to institutions that research strong annihilation force fields, such as the Groom Lake Project Project Team.

Another example is the International Annihilation Theory Organization.

The two institutions are also discussing the issue of experiments, but because the experiments did not give a clear 'cause of the explosion', the research on the strong annihilation force field can only continue to stagnate.

Many scholars are worried that the equipment will explode suddenly, because the nuclear reactor inside their equipment will also emit neutrons or other particles to touch the outer thin layer of strong annihilation force field.

Although the equipment did not have an 'energy escape' problem,...

What if?

Now there is no clear conclusion to prove that 'the explosion will only occur when energy escapes'. They must be careful when they use the equipment to do experimental research.

They don't dedicate their lives to physical research.

Empoli-Cubo was troubled by this, and he decided to install more safety facilities to provide more safety protection for those participating in the experiment.

In this way, at least I will feel much better.

The international annihilation theory organization is also similar. After Bill Bryan returned to the research base, he immediately applied for an 'explosion-proof compartment', and decided to dig an air-raid shelter under the experimental equipment that could be avoided in time. , immediately let everyone take refuge.

In fact, the same concerns are shared domestically.

Many people are also discussing the issue of nuclear fusion devices. The field force structures of nuclear fusion devices and F-ray generating devices are similar.

Since the F-ray generating device can explode, the nuclear fusion device has become very unsafe.

If a nuclear fusion device explodes suddenly, it will definitely become a catastrophic accident. Fortunately, the reaction in the nuclear fusion device can be suspended.

The current nuclear fusion device is still only an experiment. The project team is building a new supporting power generation device and surrounding facilities. The suspension of the reaction in the device has no effect, but it makes the peripheral staff feel much safer.

Faced with concerns related to nuclear fusion projects, Wang Hao gave reassurance, "Similar explosions will not occur in nuclear fusion devices."

"One is because our device is very stable and there will be no energy overflow."

"Second, the strong annihilation force field is inside the material and will not have direct contact with the high-heat particles reacting internally."

Wang Hao's statement is heart-warming.

Another person who is worried is Liao Jianguo. His team specializes in studying f-rays, and several pieces of equipment will have contact between particles and thin layers of strong annihilation force fields.

Liao Jianguo had a headache because of this, and he always felt uneasy until he found out the reason.

Although they use DC technology to directly create an anti-gravity field, and then create a strong annihilation force field through magnetic field extrusion and a built-in heat source, the field force and the structure of the built-in heat source are the same.

Liao Jianguo also found Wang Hao and asked.

Wang Hao has no good solution for this, because the deep-seated principle is not clear, and he can't guarantee 100% that the F-ray device will not have an energy explosion.

"It's probably fine. Just pay more attention to safety."

He reminded Liao Jianguo and continued to write the application report. He was going to lead the research team to conduct a new experiment——

Study energy bursts within strong annihilation fields.

Just like what Wang Hao said to He Yi, they have the direct current strong annihilation force field technology, which can directly create a large area of ​​strong annihilation force field, and the generating equipment is still under the field force, so it is completely possible to conduct experiments directly.

"The plan is to create a low-intensity annihilation force field and gradually increase the strength of the ability internally to see if there will be a change."

This is the most basic security verification.

The experimental method is also very simple, that is, using conductors to create a heat source.

The first-order conductor will not be affected by the low-intensity annihilation force field, coupled with the peripheral circuit design, a heat source can be created within the field force, and as the intensity of the heat source continues to increase, we will see if there will be new discoveries.

"Normally, there would be no new discoveries."

"It's just pure heat. Even if it exceeds the upper limit of the annihilation field, it's just normal energy escape..."

"The most important thing is, follow-up experiments..."

"I believe that low-abundance uranium-235 or other fissile materials can be added step by step within the field force."

"The abundance is low and the reaction is slow, but even natural decay will still produce neutrons."

"We can continue to increase the amount or abundance of materials until we find a weak explosion..." Wang Hao explained to He Yi.

He Yi immediately said, "In this way, the explosion can be controlled within an acceptable range, but safety precautions must also be taken."

"certainly."

Wang Haodao, "The underlying equipment must be protected, and explosion-proof barriers must be installed between the field force and the equipment."

"There must also be explosion-proof and radiation-proof barriers around it. During the experiment, it is best not to have people come into contact with the equipment, and it can only be controlled from a distance."

He Yi looked forward to it, "If we can effectively control the explosion in the experiment, we will have mastered a brand-new energy technology, right?"

"That's a good idea."

Wang Hao commented, and then said, "I hope so too. But we should first effectively control nuclear fusion and use nuclear fusion technology to generate electricity, and then study and control this reaction with higher energy release intensity... "

The application for the new experimental project was successfully approved.

The funding required for this experiment was not high. Initially, it was just a matter of making new equipment and ordering a large number of detection devices.

For research in a new field, the investment is still very worthwhile.

The project will be a collaboration between the Annihilation Force Field Experimental Group and the Institute of Nuclear Physics. The initial research on the Annihilation Force Field Experimental Group can be completed.

at the same time.

The international physics community has also begun to appear one after another with results papers, all of which are related to the recent replica explosion experiment.

Most of the papers appearing now are related to the experiment itself. For example, some studies summarize the experimental work.

Some use the "ratio of energy escaping particles" to analyze the characteristics of strong annihilation force fields.

There is also research on real-time data analysis of high-precision equipment, which are papers related to the field of pure mathematical analysis.

Several of the papers mentioned ‘antimatter’ and believed that the explosion was related to ‘annihilation explosion of matter and antimatter’.

This type of research has received a lot of attention.

Wang Hao didn't think about publishing any papers. Ordinary papers are meaningless to him. What he cares about is the experimental project itself and in-depth theoretical research.

After the experiment, he stayed at Sokai University.

He shared the data and information about replicating the explosion experiment with the people in the research team, so that they could conduct research if they were interested, but others just listened and did not follow up.

In fact, it is quite normal.

There were nearly a hundred physicists participating in the experiment, some of whom were also very good theoretical physicists, but none of them could analyze anything based on the experimental data.

The people in the research team only know the experimental data information. How can it be so easy to complete theoretical research and dig deeper into the principles?

Helen, Chen Mengmeng and others continued their research.

This day is very important.

Helen, Chen Mengmeng, Ding Zhiqiang, and Paul Phil-Jones found Wang Hao together and talked about their theoretical conception of the principle of light speed research.

Helen made a brief statement on behalf of the four-person group, "Based on the prime numbering of energy, we divide it into two states, namely zero-state energy and non-zero-state energy."

This sentence immediately made Wang Hao interested, "Tell me specifically."

Helen explained, "We found in our research that if we only have the basis of energy primes, we cannot use its system to explain the problem of the speed of light."

"Considering the impact of the strong annihilation force field and anti-gravity field on the speed of light and beam energy, the methods that can be used for underlying mathematical analysis are very scarce."

"That is, unable to express it."

"We discussed this issue for a long time and decided to divide energy into two types, one is zero-state energy, which is undetectable energy quanta, and the other is non-zero-state energy, which is detectable energy quanta."

"When a non-zero state energy quantum appears alone, a zero state energy quantum will be produced at the same time and cancel each other out."

Wang Hao frowned and asked, "That is... the energy is annihilated?"

"It is not the annihilation of field force, but the cancellation of energy. Our research does not involve annihilation force for the time being." Helen explained, "Chen Mengmeng proposed the concept of anti-energy before, but after careful study, we believe that defining zero-state energy More suitable."

Wang Hao asked suspiciously, "Why isn't the energy annihilated directly? What is the purpose of this zero-state energy quantum setting?"

"Explain the speed of light!"

Helen said very clearly, "The difference in the speed of light under different field forces is explained by the cancellation of zero-state energy and non-zero-state energy."

Wang Hao thought carefully, and it took him a long time before he said, "Zero-state energy can only appear with the emergence of non-zero-state energy, and it takes time for the energy quanta of the two properties to cancel out..."

"So, can you understand it this way, when a large amount of energy accumulates, a large amount of zero-state energy will be generated inside..."

"When the zero-state energy density reaches a certain level, can the mass point be annihilated?"