The anomalous explosion project team of the replication experiment finally came to two conclusions, one is a 'pure energy explosion' and the other is a 'disorder explosion'.

In addition to excluding the factor of 'strong annihilation force field itself burst energy', the former also represents 'particle energy burst', as for how the energy burst occurs, it needs to be studied later.

The latter refers to bursts of energy that do not have a fixed location.

Before the start of the project team's experiment, Wang Hao expressed his personal opinion, believing that the explosion accident and the 'neutron explosion', taking the neutron energy explosion as an example, the strong annihilation force field created by the experiment is an approximately circular thin layer structure, and the location of the main energy explosion has several points.

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 'multi-point disordered burst', and from the perspective of the neutron excitation of neutrons in the nuclear reactor inside the experimental device, the thin layer of the neutron collision strong annihilation force field is indeed disordered, and it is impossible to find the law unless it is designed to control the direction of the neutron excitation.

In the end, the experiment is over.

After that, there will definitely be a lot of paper results, and all the scholars who participated in the experiment have gained a lot, and it is no problem to write at least one novel paper.

Some scholars who participated in the experiment said, "The physics community is about to usher in a feast of research on particles and annihilation force fields!" ”

"It's an experiment."

"We experimented with bursts of particle energy, and there was a big takeaway for each participant, which could be the starting point for a new physics......"

Many scholars have used the term 'physical feast' to describe experiments.

In fact, the number of physicists involved in the experiment was only 100, and the total number of participants in the experiment was only about 400.

If we compare the international large-scale physics experiment with the particle collision experiment of the European Organization for Nuclear Organization, there are several thousand people involved in the direct work, and a large number of physicists will participate in each experiment, and a small team of dozens of people will participate in the experiment.

This experiment is much worse in scale.

However, the content is different.

In the past few decades, particle collision experiments have been carried out, most of the content has been thoroughly studied, and if you want to make new discoveries, you must greatly increase the intensity of collisions, but the discovery is only new particles or particle signals, etc., and the ordinary scholars involved in the experiment have little to do with them, they are more just 'involved'.

The current experiment belongs to the 'new field', a field that has never been explored by mankind, a strong annihilation force field combined with an explosion of particle energy, and you can write a paper if you find any content.

In the field of international physics, there are also many voices of discussion.

The project team came to two conclusions, while the physics community focused on discussing the deeper principle, "The explosion of particle energy in a strong annihilation field may be similar to the energy in a black hole." ”

"Maybe we've discovered the reaction in a black hole."

"Maybe it's antimatter. There are only a few known ways of particle energy explosion, and it is not certain whether there are particles that disappear in the experiment, but the phenomenon of positive and negative particle annihilation may have occurred......"

This statement has been agreed by many people.

Not only Wang Hao can think of antimatter, but others can also think of it, because the energy explosion at the particle level can only be used in a few ways, such as nuclear reaction and particle collision.

In the experiment, the possibility of particle collision and energy explosion is very small, and nuclear reactions are directly ruled out, and if there is no new way of particle energy explosion, 'positive and antimatter annihilation of each other and explosion of energy' becomes a 'reasonable' explanation.

After the possibility of 'antimatter' was raised, the discussion in the physics community became even more intense.

Humans have been searching for antimatter all the time.

Many physicists work on antimatter, and they hope to find evidence of its existence in experiments.

The current experiment directly occurred a positive and antimatter annihilation explosion?

It's so attractive!

The enthusiasm of the international physics community for experiments has not been transmitted to institutions that study the strong annihilation force field, such as the Groome Lake Project team.

Another example is the International Organization for the Theory of Annihilation.

The two institutions are also discussing the experimental problem, but because the experiment has not been able to give a clear 'cause of the explosion', the research on the strong annihilation force field can only continue to stagnate.

Many scholars worry about a sudden explosion of the device, because the nuclear reactor inside the device also emits neutrons or other particles that touch the thin layer of the outer strong annihilation field.

Although the equipment did not have the problem of 'energy escape', it was ......

What if?

Now there is no clear conclusion that 'energy will only explode when energy escapes', and they must be careful and careful when they use the equipment to do experimental research.

They don't dedicate their lives to physics.

Empoli-Cooper was so troubled by this that he decided to install more security to give the people involved in the experiment more safety.

That way, at least I feel a lot better.

In a similar vein, Bill Bryan applied for an 'explosion-proof compartment' as soon as he returned to the research base, and decided to dig a bomb shelter under the experimental equipment to avoid it in time, and if anything went wrong during the experiment, everyone would be allowed to take refuge immediately.

In fact, there are similar concerns at home.

Many people are also talking about the issue of nuclear fusion devices, and the field force structure of nuclear fusion devices and F-ray generators is similar.

Since F-ray generators can explode, fusion devices are also very unsafe.

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

The current nuclear fusion device is still only an experiment, and the project team is building a new supporting power generation device and surrounding facilities, and the suspension of reactions in the device does not have any effect, but makes the peripheral staff feel much safer.

In the face of concerns related to the nuclear fusion project, Wang Hao gave reassurance, "There will be no similar explosion in the nuclear fusion device." ”

"One is because our device is stable and doesn't spill out of energy."

"Second, the strong annihilation force field is inside the material and does not come into direct contact with the highly hot particles that react internally."

Wang Hao's statement made people feel down.

Another concern is Liao Jianguo, whose team specializes in F-rays, where several devices will have contact between particles and thin layers of strong annihilation force fields.

Liao Jianguo has a headache for this, and he is always uneasy if he doesn't find the reason.

Although they use direct current technology, which directly creates an anti-gravity field, and then creates a strong annihilation force field through magnetic field extrusion and a built-in heat source, the field force and the built-in heat source structure are the same.

Liao Jianguo also found Wang Hao to ask.

Wang Hao didn't have much to do about it, because the deep-seated principle was not clear, and he didn't dare to guarantee 100% that the F-ray device would not have an energy explosion.

"It's generally fine, let's pay more attention to safety."

He reminded Liao Jianguo, and continued to write the application report, he wanted to lead the research team to conduct a new experiment-

Study the bursts of energy within the strong annihilation field.

Just like Wang Hao said to He Yi, they have DC strong annihilation force field technology, which can directly create a large area of strong annihilation force field, and the generation equipment is still below 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 any changes."

This is the most basic security validation.

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

First-order conductors are not affected by the low-intensity annihilation force field, and together with the peripheral circuit design, a heat source can be created within the field force, and the heat source strength will continue to increase to see if there will be new discoveries.

"Normally, there are no new discoveries."

"It's just pure heating, even if it exceeds the upper limit of the annihilation force field, it's just normal energy escaping......"

"The most important thing is that the follow-up experiment ......"

"I think it's possible to add low-abundance uranium-235 or other fissile material in a step-by-step manner within the field force."

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

"We can increase the quantity or abundance of the material 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 protection must also be required." ”

"Of course."

Wang Hao said, "It is necessary to protect the underlying equipment, and an explosion-proof compartment must be installed between the field force and the equipment." ”

"There should also be explosion-proof and anti-radiation insulation around it, and during the experiment, it is best not to have contact with personnel and equipment, and 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 be able to master a new energy technology, right?" ”

"That's a good idea."

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

The application for the new experimental project was successfully approved.

The cost of this experiment was not high, and it was just a billion flower families making new equipment and ordering a large number of detection devices.

For a completely new field of research, the investment is well worth it.

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

At the same time.

The international physics community has also begun to produce results in papers, all of which are related to the replica explosion experiments that have just passed.

Most of the papers that appear now are still related to the experiment itself, for example, some studies are a summary of experimental work.

Some analyze the characteristics of strong annihilation fields in terms of the proportion of particles where energy escapes.

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

Several of these papers refer to 'antimatter', arguing that explosions are related to 'positive and antimatter annihilation eruptions'.

This type of research has received a lot of attention.

Wang Hao didn't think about publishing any papers, ordinary papers didn't mean anything to him at all, he cared about the experimental project itself, as well as in-depth theoretical research.

For the time after the experiment, he stayed at Seohai University.

He shared the data and information of the replica explosion experiment with the people in the research group, so that they could study it if they were interested, but the others just listened to it and there was no follow-up.

Actually, it's quite normal.

Nearly 100 physicists participated in the experiment, some of whom were also very good theoretical physicists, and none of them could analyze anything based on the experimental data information.

The people in the research group 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 own research.

This day is important.

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

Helen made a brief description on behalf of the four, "On the basis of energy prime, we divide it into two natures, which are zero energy and non-zero energy. ”

This sentence immediately made Wang Hao interested, "Let's talk about it specifically." ”

Helen explains, "In our research, we found that the speed of light cannot be explained by a system of energy primes if there is only the basis of energy prime. ”

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

"That is, it can't be expressed."

"We discussed this problem for a long time and decided to divide energy into two types, one is zero-state energy, that is, undetectable energy particles, and the other is non-zero state energy, which can be detected."

"When a non-zero energy particle appears alone, a zero energy particle is produced at the same time and cancels each other out."

Wang Hao frowned when he heard this, and asked, "That is, ...... Energy annihilated? ”

"It's not the annihilation of the field force, it's the energy cancellations. Our research does not address annihilation for the time being. Helen explains, "Previously, Chen Mengmeng proposed the concept of anti-energy, but after careful study, we believe that it is more appropriate to define zero-state energy. ”

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

"Explain the speed of light!"

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

Wang Hao thought carefully about it, and it took a long time before he spoke, "Zero-state energy can only appear with the appearance of non-zero-state energy, and it takes time for the two nature energy particles to cancel out......"

"So, can it be understood that when a large amount of energy is gathered, a large amount of zero-state energy will be generated inside......

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

(End of chapter)