When a decision made at a major meeting is named with the suffix 'plan', it is very unusual.

In the history of Amriken, there are several very famous 'programs'.

One of the most well-known is the Manhattan Project.

In June 1942, Amriken implemented a plan to develop an atomic bomb using nuclear fission reactions, known as the Manhattan Project.

This project brought together the largest and best team of scientists, including Einstein, Fermi, Bohr, Feynman, von Neumann, Wu Chien-shiung, Oppenheimer, Rabi, Lawrence, etc., and countless scientists participated in the Manhattan Project.

According to statistics, the Manhattan Project needed more than 2,000 civilian personnel, more than 2,000 military scientists, and more than 1,000 well-known scientists from various countries.

The total number of people planned to be mobilized is more than 100,000 people.

The entire project took three years to complete, costed more than $2 billion, and finally succeeded in carrying out the world's first nuclear explosion and building two practical atomic bombs according to the plan.

$2 billion, it doesn't sound like much, but you know, it was in the 40s of the last century.

At that time, 1 US dollar could buy 170 catties of rice or 1 gram of gold with purchasing power, and you can imagine how huge 2 billion US dollars was.

In addition, the most famous is the 'Marshall Plan'.

It was after the end of World War II, and Marshall, a senior American official, had come to the prestigious Harvard University to give a lecture and talk about his preparations for the rebuilding of O'Continent.

However, Marshall did not go into too much detail, just said that Ameriken paid to help Continent 0 in order to develop Continent O.

Marshall is speaking to 0 continents.

The full content of the speech was broadcast by several large media outlets on several continents. At that time, the situation in Continent 0 was very bad, the war caused Continent Zero to lose its economy, many people could not live their lives, and there was a workers' movement everywhere.

The Marshall Plan was a highly successful strategic plan.

While helping West 0 and other regions, American greatly expanded its control over the economy, military, and other aspects.

Now, Amriken's high-level decision to formulate the 'Groom Lake Plan' is a state-supported one-way investment in scientific and technological research and development.

The reason why the "plan" is formulated is because the investment will be very large. Lake Groome is a place name located less than 100 kilometers from the bustling casino city of Las Vegas, and the desolate area surrounding the lakebed is known as a military exclusion zone.

It also has another name - Area 51.

The 'Lake Groom Project' is to establish a new large-scale laboratory in the inhospitable area surrounding Lake Groom, dedicated to the study of the Annihilation Force Field and related supporting programs.

At the same time, a large number of top scientists are invited to participate in it, and other university research institutions, large experimental laboratories and large enterprises are invited to cooperate in the research.

In short, sufficient funds should be allocated and a large number of top talents should be gathered to jointly research the Annihilation Force Field technology.

Amriken's senior management believes that as long as enough attention is paid to it, it will definitely be able to achieve technological overtaking for flower growers and anti-gravity sex research centers.

Because, they are more invested.

They have more and more top-notch scientists.

With so many top scientists, and with enough financial support, is it not as good as an anti-gravity sex research center, and not as good as a Wang Hao?

......

Ameriken's senior management has only drafted a plan, and it will definitely take a long time for the plan to be approved and thoroughly demonstrated, and then to be officially implemented.

But there is no doubt that they have given absolute attention. Wang Hao didn't care about other countries and institutions, and he didn't even have the concept of competition for the time being, because the Anti-Gravity Sex Research Center has been leading the research.

The International Annihilation Theory Organization has also created a strong annihilation force field, but the field force strength is obviously too low and too low to be called a 'competitor'.

Plus, they have new technology.

The manufacturing of a strong annihilation force field by DC superconductivity is much more efficient than that of the manufacturing method of AC superimposed force field.

They are no longer a starting line.

Of course, having more advanced technology does not mean that you can sit back and enjoy the success, and the competition in science and technology is to sail against the current, and if you don't advance, you will retreat.

Therefore, Wang Hao is still thinking about the issue of technological improvement.

He thinks that the next step is to start from the root of the annihilation force field generation technology, that is, to develop new superconducting materials.

There is good news on this day.

Jieli Lithium, a large domestic lithium battery manufacturing company, took the lead in using magnetized lithium element compound materials to manufacture a lithium battery.

The R&D team of Jieli Lithium reported the performance test data, and the performance of the newly manufactured lithium battery has been improved by more than two times compared with the conventional one.

There are two important indicators for the performance of lithium batteries, one is the storage capacity and the other is the effective output power.

The storage capacity of the new lithium battery has been increased by 2.4 times, the effective output power has been increased by 1.5 times, and other data, such as service life, are still in the process of testing.

According to the available data, there will also be a small increase in service life.

While this news is exciting, it also makes the formation of a new company around the manufacture of first-order materials much smoother.

The formation of a new company requires the presence of products.

First-order iron is only one of them, but it is not the main one for the time being, and the manufacturing speed in 'kilograms' can only be supplied to scientific research institutions for the time being, which is far from meeting the market demand.

Magnetized lithium materials are different.

Magnetized lithium element materials can only be degaussed after a strong annihilation force field, and the manufacturing speed will be very fast, and they can be directly put into the market.

The new company will have a product that will be put on the market, and it will continue to generate profits.

On this day, Wang Hao went to the capital to attend a meeting of the science and technology department, and the meeting talked about two points, one was the formation of a new company, and the other was the research of the annihilation force field.

Wang Hao is concerned about two points, one is the funding of the annihilation force field.

Funding is too important.

The Annihilation Force Field Experimental Group is very money-burning, and it is very easy to spend hundreds of millions of dollars on average every month, and when focusing on a single research, the speed of burning money will increase several times, and it must be supported by far and continuous funding.

Therefore, when it came to the issue of the formation of the new company, Wang Hao directly proposed that the profits of the new company should be invested in the annihilation force field experimental group.

The proposal was quickly adopted.

One is that the new company has just been prepared to be formed, and the division of interests is not fixed, of course, it is necessary to listen to the suggestions of the technical experiment group.

The second is that the research of the annihilation force field experimental group is very important, and it is an important guarantee for the research and development of annihilation technology and the technological improvement of new companies.

The meeting finally decided that 20% of the annual profits would be allocated to the Annihilation Force Field Experimental Group and other related research.

In this way, the Annihilation Force Field Experimental Group no longer has to worry about funding, and may even become the richest scientific research institution in the future.

On the topic of annihilation technology research, Wang Hao also talked about his thoughts, "I think a new experimental group should be set up to specialize in the study of superconducting materials that support the creation of anti-gravity and strong annihilation force fields."

"The high-pressure hybrid materials used in our experimental group have not been improved for a long time."

"That's a big problem." ......

Superconducting materials are indeed very important.

Wang Hao believed that superconducting materials were the key to annihilation force field technology, and after returning to Xihai University, he also began to research superconducting materials.

His research is not to make superconducting materials, but to re-examine the theory of superconducting semi-topology from the bottom.

When a completely new element is discovered, it can lead to a variety of new problems, such as first-order iron and first-order lithium, which brings a new problem of 'superconductivity theoretical adaptability'.

In the theory of superconducting semitopology, the core is a basic formula

, the data of the substituted element can be passed through to solve the superconducting transition temperature of a single element.

In addition, the superconducting transition temperature of the two-element combination can also be solved through complex calculations.

If you go deeper, the three elements and the four elements will increase in exponential difficulty, and it will be very, very complicated to ask for a solution.

This basic formula has also made the superconducting semi-topological theory quickly recognized by the international physics community and has become the most important theoretical basis for the study of superconducting superconductivity.

However, the emergence of first-order iron and first-order lithium has made the superconducting semi-topological theory inapplicable.

For example, first-order iron and conventional iron have the same characteristics of protons, seeds, electrons, etc., and the critical temperature values obtained by bringing the same data into the solution are naturally identical.

"This is probably the formation of a stable state of electron migration from the elements, which is different from the elements in the conventional annihilation environment."

"The strength of the relationship between electrons and nuclei is different."

The fields of superconducting semitopology theory and annihilation theory are different, and Wang Hao found another team, including Bierkar, Lin Bohan, Zhang He, Ding Zhiqiang and Luo Dayong.

Among them, Bierkar, Lin Bohan and Luo Dayong were all involved in the research of superconducting semitopology theory.

Ding Zhiqiang's main direction is also algebraic geometry.

Zhang He has performed well in the theoretical calculation group of superconducting elements, and he still serves as the leader of the calculation group, and he has also been given the position of deputy director, becoming the second person in the calculation group.

Now they hope to solve the problem of how to incorporate first-order elements into the theory of superconducting semitopology.

Several people expressed their opinions, "I think that according to the experimental results of superconductivity detection, several constants can be corrected."

"It can't be. Now there are only first-order iron and first-order lithium, and there are few experiments and few data."

"Is it a possibility? Connecting the first order iron to the existing elements to make a data transformation? "Ding Zhiqiang made a bizarre point.

This argument sounds a bit bizarre.

Others thought about it carefully and found that there is indeed a certain amount of truth, if you can find elements similar to the first-order iron superconductivity, or according to their properties, they can be converted into specific data, which can be substituted into the superconducting semi-topological theory.

In the end, Wang Hao still shook his head, "The difference is too big."

"The closest thing to the transition temperature of first-order iron superconductivity is mercury, but there is no relationship between the two in terms of other characteristic data."

"Even if it's just a change in the data, there are so many variables, it's simply impossible."

The research cannot find a direction for the time being,

Wang Hao also gave others time to think about it, and he continued to study the superconducting properties of first-order iron and first-order lithium.

The superconducting properties of first-order elements have been studied by the Superconducting Materials Laboratory for a long time.

They have determined the superconducting transition temperatures of first-order iron and first-order lithium, as well as several iron-based superconducting materials made from first-order iron.

Two of the iron-based superconducting materials have very strange transition temperature data, and their transition temperature has not only not increased, but decreased a lot.

That's the problem.

The large increase in the transition temperature of the first-order iron element, coupled with the increase in the transition temperature of the two iron-based superconducting materials originally measured, has given many people a fixed impression that as long as the iron is replaced with the first-order iron, the transition temperature of the material will rise.

As a result, they found a decline.

Wang Hao also asked the research group to focus on these two materials, and also asked the anti-gravity property research center to determine the anti-gravity properties of two iron-based superconducting materials.

He simply went to the Anti-Gravity Sex Research Center.

When he arrived in front of the experimental group, he saw He Yi just come out, waved his hand and shouted, "Academician Wang, you came just in time!"

Wang Hao walked over head-on.

He Yi followed him into the door and said, "We just finished measuring one of the materials, and the results are a bit special, and I'm about to go

Tell you."

Wang Hao suddenly became interested, "Let's talk about it."

"The conventional transition temperature of this superconducting material is 73 K, and when it is replaced by first-order iron, the transition temperature is only 65 K."

"We have also done anti-gravity tests in the past, and the maximum field strength is only 0.96 (4%), but when it was around 139K, the experiment found that the anti-gravity phenomenon was determined, and it was determined at 100K, and the value was determined to be 0.2%."

"We thought we had made a major discovery, and it turned out to be 71K, and the value increased to 0.3%."

He Yi was a little regretful, "64K, under the superconductivity state, is only 0.4%, which is too low and too low......

He said with a change in his voice and smiled, "I didn't find that kind of super material, but it's also an important discovery, right?"

Wang Hao pondered carefully, "The transition temperature is only 65K, but the anti-gravity phenomenon can be found above 100K......

He smiled bitterly, "Studying the applicability of superconducting semitopological theory to first-order iron is already messy enough, and I don't have a clue until now, and your discovery has complicated the research."

"It's a mess!"

"The original theories have been overturned, and the original experimental results have completely lost their meaning......

"Ah~"

He sighed, muttered in thought, "Still, the results of the experiment are confusing..... It could be a big step forward!"