Genius of the Rules-Style System

The data review of the material transport experiment lasted for a week. Several teams made reports in the conference hall. Some minor problems arose during the process, but overall there were no problems.

soon.

As all the results come out, the data is summarized and the final results are available.

Among the most important ones, one is the overall proportion of material transmission, which is determined to be 63.792%, accurate to five decimal places, which is much more accurate than the original data.

The other is the degree of particle destruction that occurred during the material transfer experiment. The degree of particle destruction reflects the proportion of molecules that make up the material that were destroyed during the experiment. The data is 0.3 parts per 10,000.

This is a very high value.

But not all the molecules that were destroyed participated in the nuclear fusion reaction. Only a very small part of the molecules were destroyed to the level of tiny particles. Most of them were just broken down into atoms. At the atomic level, the amount of damage was very small. .

The main material transferred in the experiment was only water. More than half of the water was transferred, and very complex reactions took place. Some were directly decomposed into hydrogen atoms and oxygen atoms. Water molecules were synthesized instantly during transfer, and some became Hydrogen and oxygen are broken down into tiny particles, thereby participating in the nuclear fusion reaction.

Although the nuclear fusion explosion was very weak, it still produced a lot of products. After the experiment, radioactive hydrogen atoms were even discovered.

"The final result proves that the destruction of molecules and atoms by material transfer has nothing to do with the experimental transfer of energy. It is the experimental method that activates the splitting of water molecules, and the split molecules participate in subsequent reactions."

"During the reaction process, the transported particles undergo a series of reactions, resulting in a very small loss of mass."

"But the key is that a fusion reaction occurs, and I think this is a new way of directing a fusion reaction."

"Before this, we could only use particles extracted in a special way as raw materials and ignite to activate the nuclear fusion reaction."

"The guidance now is higher."

"Perhaps, we can use this discovery to develop a new type of nuclear energy——"

For foreign team organizations, the experiment is very meaningful both in terms of process and results, and the final nuclear fusion explosion is also very meaningful.

Ben-Brad-Chelmicky believes that by studying the final explosion and amplifying the explosion as much as possible, it is possible to discover ways to create new energy.

This proposal was not accepted.

Nowadays, there are very high-end technologies for transmitting solar energy, which can be said to be the cleanest energy, and there is also controllable nuclear fusion. Therefore, when the experiment first discovered nuclear fusion explosions, there was no energy consideration at all.

Obviously, the perspective considered by foreign institutions is different from that in China.

Many foreign institutions have also been studying controllable fusion situations, but because the duration of the anti-energy barrier is limited and they do not have compression material technology, they are simply unable to create a controllable nuclear fusion device.

Without the relevant support of domestic technology, even if it takes ten, twenty years, or even longer, they will not be able to create a controllable nuclear fusion device, let alone use controllable nuclear fusion as an energy source. .

The technology of transmitting solar energy is even more advanced for them, even so advanced that it is simply unimaginable.

So they are still very persistent about energy. When they discover a new way to create nuclear fusion, the first thing that comes to mind is energy.

However, it is too difficult to control a nuclear fusion explosion by transporting matter. Conducting related in-depth research requires a very high investment, and for the time being, the gains outweigh the losses.

Ben-Brad-Chelmicky's statement sounded indeed interesting, but the experimental team rejected it outright because the study of energy and space was more important.

The core of the discussion at the meeting was still research related to material transport.

The most important point is the transmission ratio.

The first thing that foreign institutional teams think of is the output end, that is, the transmission ratio is related to Z-wave compression. However, in fact, various previous experiments have proven that the relationship between transmission ratio and Z-wave compression is very small, and it can even be said that there is no correlation. .

"Maybe it's because the Z-wave compressed space has provided enough open space." Zhao Yi gave a simple explanation.

This is like placing one square meter of supplies on an empty basketball court.

It is really easy to move out one square meter of an empty basketball court.

In other words, as long as the space is compressed just a little bit, it will be enough to provide enough 'fields' for the transferred matter and holes to use.

It is very simple to prove this. Previous experiments have already adjusted the power of the Z wave. Even if the power is adjusted to the lowest standard, it will not have any impact on the experimental results. What has an impact is the channel built by the space link equipment, the stable channel. It can effectively reduce the proportion of the smallest particles, which means reducing the intensity of the explosion.

This is a result proven by experiments.

The summary meeting of the experiment led to several conclusions, but little real progress had been made.

The experimental team is not surprised, because it is just a test experiment, which means that the research has just started, or even the research has not started yet. The purpose of the test experiment is just to familiarize each team with the experiment and work.

That's all.

It would be nice to be able to draw some conclusions now.

After the test experiment is over, some teams can return, but there are still many mathematicians, physicists and engineers who stay to work. Some of them are representatives of each team, and some are directly hired and will stay for a long time. Experimental base work.

Some of these hired personnel are responsible for data work and testing work, some are responsible for calculation-related work, and some have joined the software support team to improve the performance of the software.

etc.

When launching large international projects, one of the many things is to be able to retain talents. The project will provide many top jobs and attract top talents to work on a long-term basis.

The next step is the subsequent analysis of the test experimental data and preparation for the second experiment.

The discussion for the second experiment will begin one month later. The experiment will not be a test level, but a large-scale experiment.

For the first formal experiment, a lot of preparation work needs to be done. The first thing is to upgrade and replace equipment, and also need to document the vicinity of the experimental site.

In addition, the testing equipment placed inside the experiment will be more sophisticated, and two more teams will be involved.

etc.

Now we are conducting follow-up research on the data from the test experiments, because the data analysis results are not certain, errors may occur in the analysis process, and even in the stage of collecting data.

All information will be disclosed to major partner organizations, who can view the information on their computers and use the information to collect and analyze data.

Many scientists are already gearing up.

This is the first time data from a material transmission experiment has been made public, and there is a lot of information in the data. Maybe some information has not been discovered at all, and some information hides very valuable content.

They can analyze something from this data.

These data are treasures.

Just like in particle collision experiments, the standard model of particles is constructed step by step based on experimental data, and the discovery of new particles is also based on data analysis.

The current material tradition experiment is a new research, and there will definitely be many directions for exploration.

What they have to do is to use various means to analyze the data to find out some researchable content and study it carefully.

——

From the beginning of the experiment to the end of the analysis, it took a total of three weeks.

After each team left, the work became relatively easier, and several people in the theory group also had some time to relax. However, instead of relaxing, they couldn't wait to start another job, which was to study space link technology and strive to build more Stable space channel.

This is a design job, but if you want to participate in design, you must have a considerable theoretical foundation.

Not only the four people from the theoretical team participated, but also the team from the Space Information Technology Company sent four people to participate in the design work.

Among them are two top optical experts, and two are top researchers at the Quantum Physics Laboratory of the former Academy of Sciences.

Zhao Yi is the core of the research team. He first made a basic framework, and others made detailed improvements based on each position of the framework.

It sounds simple, but once you get involved, you’ll realize how complicated it is.

A complete spatial connection structure requires 233 beam generating points.

The number two hundred and thirty-three is very strange.

This is a prime number.

A prime number of beam generation points means that a perfect closed loop cannot be formed and the channel cannot continue forever.

Because of this, neither space connection nor energy transmission can build a perfect channel, and a continuous supply of energy is needed to maintain the channel for a long time.

Even if there is a constant supply of energy, the channel is not perfect. No matter what point in time, there will be one to six missing points.

What they have to do now is to improve it as much as possible, but what is perfect is not the missing points, but the construction of the path where each beam occurs, so that more points or holes can be captured within a fixed range of space.

The number of optical path points cannot be expanded during the design process, because expanding the optical path points means expanding the range of the coverage space. Increasing the range will not make the channel stable, but may make the channel unstable.

To create a more stable channel, it is necessary to increase the energy of the beam generation point. While increasing the energy, the width cannot be increased.

This requires better pipe materials.

The main way is to propagate through the establishment of new branches. The link between the light beam generation points is not one point to one point. Some points will connect one point, and some points will connect several points or even a dozen points.

These connections are made on a theoretical basis. The greater the number of connection branch points, the more stable the channel will be.

At the same time, all connections must be on a disk, that is, a plane. In other words, the connected pipes cannot cross, otherwise the connection will not be constructed.

The above are the two main research directions. Others include technical issues such as polishing the optical path tube and increasing the smoothness of the optical path tube.

After careful discussion, the eight people participating in the study were divided into three groups. Each group had two people responsible for an area. The two optical experts were not grouped. Their main job was to provide optical-related suggestions.

Work on constructing a more stable channel took a week.

After a week, the final design plan was finalized and it was time for manufacturing verification.

Everyone involved in the research is anxious and expectant. They hope that the equipment manufactured with the latest design will appear strange after being connected. The strangeness means that there will be new discoveries.

Of course, the most important thing is to be able to manufacture it first, and manufacturing through normal processes takes a long time.

Zhao Yi applied to his superiors, and they took the plan and went directly to an optoelectronic production factory and asked the affiliated laboratory to help manufacture materials.

Because it is a new design and new manufacturing, even the most basic manufacturing needs to be guided and the manufacturing needs explained. The manufacturing needs to be very detailed, and the materials and beam equipment used are all brand new.

The most difficult thing is the beam equipment.

The power of ordinary high-energy beam generators is insufficient, so a new beam generator needs to be manufactured. The beam generator is like a light bulb. If the power is too high, it will burn out.

To solve this problem, the internal component materials must be replaced.

Zhao Yi directly found the Advanced Compression Materials Company and asked them to conduct a high-intensity Z-wave compression covering to manufacture the materials used.

The power of Z-wave compression this time is very high. The compression ratio of all metal materials exceeds five times, or even close to six times.

Only such high-magnification metal installed inside the beam generator can provide sufficiently high power.

After solving a series of manufacturing-related problems, more than two weeks have passed before various materials were finally manufactured.

A large number of high-intensity beam generators were piled in the middle of the operating room, and a lot of materials were transported.

Those involved in the research, including other technical support personnel, began to use machines to manufacture new space link equipment.

soon.

Two brand-new space link devices were assembled, one of which was placed two hundred meters away, and the other was placed in place.

Then the linking work begins.

Linking two brand-new space link equipment together is not an easy task. The most important thing for the operation of the space link equipment is complex debugging. As long as there is a deviation in the direction of a beam generator inside the equipment, it will not be possible to link them together at all.

The reason why establishing a link with the space link equipment sold on the market is relatively simple is because there is an internal correction system to assist it.

Nowadays, brand-new equipment does not have a targeted correction system, so you can only connect it manually. The new equipment is very complicated inside, even three or four times more complicated than ordinary equipment. The connection work alone took more than six hours. .

finally.

The two devices are linked together.

Research by the theoretical team believes that when the established channel is very stable and reaches an extreme value, something will definitely happen. It is like the operation of an anti-gravity system. After enough energy is absorbed by space, the anti-gravity barrier can be opened. Same.

However, after the experiment started, nothing happened.

"The connection is OK!"

"The light path is smooth and the information is received smoothly."

That's all.

Everything being normal is the worst possible outcome.

"Isn't the channel strength not strong enough?" Qiu Chengwen asked doubtfully, "We are only making technical improvements, but may not have achieved a qualitative leap, so we cannot reach the so-called extreme value."

"Did you fail?" Edward Witten's voice was a little regretful.

Zhao Yi took a deep breath and nodded seriously, "No, I believe that something must have happened, but it can't be detected."