Wang Hao has done some research on the mathematical content of string theory.

There is a certain reason why string theory has attracted the participation of so many theoretical physicists and has been recognized by top academic circles.

Leaving aside the theoretical basis, its mathematical description of high-dimensional space-time and its expansion can be described as "wonderful". If you study it in depth, you will be amazed and even obsessed with it.

String theory has an overall framework structure for describing high-dimensional space-time.

Chen Mengmeng and Helen's group encountered a mathematical problem. They needed to use a framework to express holes and anti-empties and enable them to be connected to the annihilation theory.

The mathematical content of the high-dimensional space-time of string theory is very suitable for shaping holes and anti-empties, which can provide a more comprehensive description of space.

Wang Hao patiently explained for a long time, allowing several students to understand what to do next.

Chen Mengmeng, Helen and Ding Zhiqiang listened together, thinking and nodding, their eyes lit up. They found that the mathematical content of string theory is indeed very suitable for describing space.

All they have to do is move the framework over and connect it with the annihilation theory.

Paul Phil-Jones has done a lot of similar work, and has also expanded to connect the content of quantum physics, hoping to apply the mathematics of string theory and combine it with annihilation theory and quantum physics.

Although his work is not perfect and the mathematical content he created has many loopholes, it is certainly enough for framework application analysis.

So after Wang Hao finished explaining, he asked Paul for a piece of information, "Paul, look for your research in the past two years."

"You should know what is needed, right?"

Of course Paul Phil-Jones knew what Wang Hao was talking about. He looked at Chen Mengmeng, Helen and Ding Zhiqiang depressedly, looking for information reluctantly.

Soon, Paul found the information and said to several people, "You can refer to it, but remember... this is my research."

"Paul, thank you."

"Your research must be useful!"

"We knew from what Teacher Wang said just now that your research can solve our problems..."

The three of them said something each, took the materials and left the office.

Paul looked at Wang Hao with resentment on his face and complained, "Wang Hao, we are competitors, how can you help them?"

"They are my students..."

"Then..."

Wang Hao interrupted and said, "We are not competitors. We are originally a group and we just conduct research in small groups. If we encounter problems in our research, we will also think about it with them..."

He knew how Paul was feeling.

Paul hopes that his research will make greater progress, but he has a strong sense of rejection towards the research direction of Helen's group, because Helen's group is more inclined to the space particle theory.

Wang Hao doesn't have so many ideas. He doesn't think the two parties are in a competitive relationship. Helen, Chen Mengmeng and Ding Zhiqiang are all his students. They must provide guidance when encountering problems!

Not only that, he is also very interested in students' research.

According to the research of Helen's team, the black ball will create an 'anti-hole' and instantly cancel it out, linking the spaces at the two positions together in an instant.

This theory can explain the problem of energy transmission, and at the same time it makes material transmission easier. The two spaces are connected together, and the difficulty of material transmission is naturally the same as that of energy transmission.

So Wang Hao hopes that the students' research is correct.

His and Paul's research was to analyze the relationship between annihilation force and space, and was far from the step of material transmission.

Of course, their research is also very important. Only with enough foundation can we analyze the experimental results based on the foundation and support the formulation of the next experimental direction.

Wang Hao was thinking about the research direction of Helen's group and couldn't help but glance at Paul. He was determined to conduct research with the students and hoped to determine whether it was correct as soon as possible.

The study of the relationship between annihilation force and space is also very important, but after all, it is only a basic theory.

"No matter what, it must be confirmed by experiments in the end."

"The experiment must be carried out as soon as possible..."

…

Wang Hao had previously given instructions to conduct force field relationship experiments, and the research was conducted by the annihilation force field experimental team.

As the representative of the theoretical group, Huang Xing went to find He Yi, and together they went to the annihilation force field experimental group and guided a series of experiments.

Now the strong annihilation force field technology has become very mature. The highest field force intensity that the experimental group can create has reached 29 times. It can create ultra-high-strength force fields. Naturally, it has a high degree of mastery of low-intensity force fields.

Strong annihilation field technology with a magnification of less than 20 times can be considered mature.

The most direct verification of force field relationship experiments is the relationship between magnetic fields and strong annihilation force fields.

The experimental team used complex high-end technology to strongly magnetize the edge of an ordinary iron ball, so that the magnetic field intensity emitted from the surface of the iron ball exceeded 12T.

The next step is to let the iron ball pass through a strong annihilation force field with a power of 10 times.

In the environment of a strong annihilation force field with a magnification of 10, the iron element will undergo an upgrading phenomenon, and the upgrading rate is about 5.6%.

If the proportion of upgraded iron elements in the iron ball is detected to be much less than 5.6%, it means that the strong magnetic field in the outer layer has played a role and successfully 'resisted' the strong annihilation force field environment.

This experiment sounds very simple, but it is very difficult to make the magnetic field intensity on the surface of the iron ball exceed 12t. To ensure short-term sustainability, a special environment is also required.

When the iron ball enters a normal environment, the magnetic field intensity in the outer layer will decrease rapidly, even more than doubling in one second.

Therefore, it is very difficult to obtain experimental data, and the reduction in magnetic field intensity in the outer layer of the iron ball will also make the data very inaccurate.

Fortunately, the experiment only detects data deviation.

After conducting four experiments, He Yi reported that the experiment was a success and made a simple report on the data.

This chapter is not finished yet, please click on the next page to continue reading the exciting content! "Our latest experiment found that only 0.3% of the elements in the iron ball have been upgraded, and most of them are concentrated on the surface."

"This data is far lower than the conventional upgrade ratio, indicating that the strong magnetic field in the outer layer plays a role..."

Wang Hao couldn't help showing joy when he heard the report. He immediately told the news to the theory team, "The experimental results confirmed Xiao Ding's idea that strong magnetic fields can withstand strong annihilation force field environments!"

"Very good!"

"This is really good news. Congratulations, Ding Zhiqiang."

"The relationship between the magnetic field and the strong annihilation force field has been verified. Even inside the strong annihilation force field, the magnetic field is still effective..."

Paul Phil-Jones looked at the experimental data and said seriously, "Judging from the results, a continuous strong magnetic field can completely isolate the field force. A weakened magnetic field can have a certain effect, but it is not 100%...

…”

"This is just iron. It would be a substance with poor magnetization effect..."

He didn't finish.

Everyone else had already reacted, and Wang Hao immediately contacted He Yi and Huang Xing and asked them to change the experimental method, "Wrap non-metallic materials with iron sheets and try it."

"In a ten-magnification annihilation force field environment, non-metallic materials cannot be upgraded, but they can still detect whether they are affected by the field force."

When non-metallic materials are affected by a field force, the magnetization reaction will definitely be detected.

The next day, the annihilation force field experimental team conducted a new experiment. The experiment was much simpler than using an 'iron ball' because non-metallic materials are more 'resistance' to field forces.

It only needs to be wrapped with a magnetic field of more than 2T. In theory, non-metallic materials will not be affected.

Experiments confirm this.

"The internal materials are not affected at all."

"We conducted three experiments and conducted instantaneous detection, but no magnetization reaction was found in the material..."

The results speak for themselves.

After learning the experimental results, everyone in the theory group was very excited.

This is a small step for experimentation, but a giant step for research.

Many people praised Ding Zhiqiang, "Your idea is so great."

"If we had thought of it earlier, we would have verified it long ago."

"A strong magnetic field can isolate a strong annihilation force field. Theoretically, it is also effective against black balls..."

"If our research is correct, wouldn't it be possible to carry out material transmission soon?"

Everyone immediately started looking forward to it.

Paul's mood is somewhat contradictory. On the one hand, he is very much looking forward to the material transmission technology, which means that they have completed the research on wormhole technology.

On the other hand, he is somewhat resistant to the research of Helen's group, and is also a little jealous of Ding Zhiqiang.

While on the spaceship, Ding Zhiqiang did almost nothing and hung out with James and the Satyr man every day.

As a result, Ding Zhiqiang just had an idea and made great progress in research. However, he did a lot of work, and the research results were only looked at and put aside as "data".

The so-called 'information' is a pity to throw away, but it is actually of no use.

"Hey~~~"

Paul let out a long sigh.

Wang Hao thinks it's normal. Scientific research is like this. It doesn't take a genius to do the most cutting-edge research. Inspiration is more important than genius.

So he is very optimistic about Ding Zhiqiang.

…

Technology sector.
To be continued...