Infinite Life: Trapped in a lifetime

These two pages are the final results of the room-temperature superconducting material output based on Mo Dao's superconductivity theory.

Unlike the turbulence model at the beginning,

the equations on these two pages are basically incomprehensible to anyone in the world except Mo Dao.

Give it to any researcher engaged in material research, and they will not understand what these equations represent.

Except for those uncertain numerical values, they are complete mathematical physics equations.

There is nothing that directly indicates the composition and composition of a certain material.

In fact, these equations, including numerical values, are the mathematical description of the theoretical room-temperature superconducting material.

Under Mo Dao's superconductivity theory framework,

each of these complex equations points to a limited range.

The equations on the two pages add up, and the common intersection range is the location of the room-temperature superconducting material.

"Is it done?"

Qin Huaishi, who was also in the study at the moment, noticed the change in Mo Dao,

just smiled gently and asked.

"Well. It's done."

Mo Dao also smiled,

It's still worth being happy that a problem that has been bothering him for more than ten years has been solved.

Before, he wanted to solve this problem before he was fifty years old.

Although it was not completely done at this moment, it was completed before the age of fifty.

"Do you want to have dinner?"

Qin Huaishi looked at Mo Dao and did not ask any more questions.

She knew that if Mo Dao was willing to discuss this issue, she would tell him.

"Okay."

Mo Dao smiled again and stood up.

...

In July, Mo Dao completed the theoretical work on room temperature superconducting materials.

The materials research team of the Qiusuo Research Institute also ushered in some work adjustments.

Regarding the synthesis of room temperature superconducting materials,

Mo Dao held a small meeting with the core researchers in the materials research team,

"... There are a total of eleven relatively complex composite materials here. Our next job is to complete the synthesis of these eleven materials in the laboratory."

"... The room temperature superconducting materials we need should be among these eleven materials."

When Mo Dao was narrating to a group of core researchers,

he did not use the previous series of complex equations.

He directly listed the specific composition of the eleven materials.

This is basically the limit of Mo Dao's superconductivity theory.

If you want to completely narrow the scope to a certain composite material, the amount of calculation is too exaggerated.

Mo Dao may not be able to bear it.

And in practical applications, there is really no need to further narrow the scope.

For a group of core researchers,

this range is already very small.

Unlike the previous 026 material,

the eleven materials given by Mo Dao have never appeared before.

But he is not that far away from human materials science.

As soon as Mo Dao announced it,

these experienced core researchers have already thought of similar materials of several of these eleven materials.

Starting from similar materials, it is definitely much simpler to explore the synthesis path.

In addition, although the composition of these eleven materials is still relatively complex,

it is much better than the previous 026 material.

After seeing these eleven materials,

the core researchers breathed a sigh of relief...finally saw something relatively familiar.

"Next, the synthesis work may depend on the core researchers."

"Now, let's get started."

...

Starting from July 44.

In the field of materials research at the Qiusuo Institute, the teams led by the core researchers have expanded a little.

Based on the current urgent goal, the Qiusuo Institute has invested more resources in the field of materials research.

For the synthesis of these eleven materials,

the wealthy Qiusuo Institute obviously cannot carry out one by one.

In the first batch,

each research team selected a total of six materials to explore the synthesis path together.

Mo Dao also joined in. With Mo Dao's participation,

the work of the materials research team was still very fast.

Mo Dao's superconductivity theory is still useful for the synthesis path of materials, especially the synthesis path of theoretical materials generated under the framework of superconductivity theory.

In addition,

Mo Dao is not limited to materials research.

Based on the breakthrough of superconducting materials, the research on the second-generation fusion technology using helium-3 as fuel has also accelerated.

Mo Dao is in charge of the overall situation, and each research team follows Mo Dao's requirements, like galloping, constantly rushing through the difficulties in front of them.

The research on electric propulsion in the aerospace field has not stopped either.

Mo Dao is also concerned about this research.

...

In the whole 44 years,

after the theoretical breakthrough in room temperature superconducting materials,

Mo Dao has become even busier.

The entire Qiusuo Research Institute is also running closely and quickly under Mo Dao's will.

For some insiders,

the busyness of the Qiusuo Research Institute at this moment only means one thing.

More than 20 years after the realization of deuterium-tritium fusion,

the Qiusuo Research Institute once again stands at a critical juncture in history.

The changes brought about by a technological change to the whole world and the whole era will appear again.

And the busyness of the Qiusuo Research Institute has not been in vain.

Key breakthroughs in various fields began to appear one after another.

…

In early 1945, under the chairmanship and participation of Mo Dao, the second-generation fusion research team

Gradually completed the research on some technical issues in various fields, as well as the design of various systems of the second-generation fusion experimental reactor.

When these tasks were put back into Mo Dao's hands,

This means that the overall design work of the second-generation helium-3 fusion experimental reactor based on a room-temperature superconducting material with excellent performance has been completed.

This room-temperature superconducting material cannot be said to be all the reason for the realization of helium-3 fusion, but it is like the last weight on the scale, making the realization of helium-3 fusion technology feasible.

Now, we only need to wait for the emergence of such room-temperature superconducting materials to start the construction of second-generation fusion experimental reactors.

Of course, the second-generation fusion research team did not stop because of this. For some parts that did not involve superconducting materials, Qiusuo Research Institute and various cooperative units also directly started manufacturing,

same year,

In terms of power in the aerospace field.

Another breakthrough has been made in the field of traditional chemical rockets.

Under the guidance of Mo Dao and the accumulation of past technologies.

The traditional chemical rockets of Qiusuo Research Institute have completely reached the peak state before Mo Dao's death in the previous life.

The Yuanhang-5 rocket and the Yuanhang-6 experimental rocket were born one after another.

The Yuanhang-5 rocket has been invested in the continued construction of lunar surface bases and near-Earth space platforms.

The lunar surface carrying capacity exceeded 200 meters.

The improvement of Yuanhang 6 based on Yuanhang 5 is also quite exaggerated.

Although it has not yet been put into practical use, in experimental launches, the carrying capacity can reach more than 300 meters.

These two giants can be said to be the embodiment of the explosion of productivity in the era of deuterium and tritium fusion.

Of course, these two rockets did not reach the sky in one step. They flew directly from the Yuanhang 4 more than a hundred miles away to the current level.

Between Yuanhang 4 and Yuanhang 5, there are many improved models from Yuanhang 4A to Yuanhang 4A.

In the field of electric propulsion,

The accumulation of technology over the years has basically allowed electric propulsion technology to reach the upper limit of the previous life ahead of schedule and surpass it.

The thrust of a single electric thruster also exceeded ten kilograms for the first time this year.

Although compared to the current chemical rockets, the thrust is still very small,

The weight of the propeller itself plus the weight of the working fluid it needs to carry still makes it of little practical value.

But it can be regarded as a breakthrough of considerable significance.

certainly,

The most critical thing is the breakthrough of room temperature superconducting materials.

It may be the experience accumulated through more than ten years of hard work,

Maybe it’s the intuition accumulated from all the past experiences.

The materials research team was not so unlucky in the synthesis of these eleven materials.

There was no second batch of materials to synthesize to find that key material.

Not even the first batch of materials were synthesized.

Qiusu Research Institute has already captured the room temperature superconducting material under normal pressure.