The semi-topological micromorphology research group includes Lin Bohan, Bill Carr, and Luo Dayong. In the process of researching together, several people have become "accustomed" to being a genius.
Each of them feels that they can always come up with some good ideas.
Of course, they think the most genius is Wang Hao, because Wang Hao has grasped the general direction and has strong control over research, and has always guided them on the right path.
In addition, during the research process, Wang Hao always gives people the feeling that they have wisdom in hand and everything is under control. Even if they have new ideas, Wang Hao can understand them immediately, even better than they think.
thorough.
They all felt that doing research with "the top genius, that is, Wang Hao" made them feel like geniuses.
In fact, everything is the result of "Feedback from Scientific Research".
"Gift of Scientific Research" is indeed a very good ability. So far, the effect of "Gift of Scientific Research" is much stronger than "Gift of Teaching", and its effect is also better.
This is mainly because the research is too difficult and the threshold is too high.
"The Gift of Teaching" brings mostly an understanding of the basics of knowledge, but it does not bring much inspiration and ideas.
"The Gift of Scientific Research" focuses on inspiration content, and difficult research often needs inspiration the most.
Unknowingly, the effect of "The Gift of Scientific Research" has also improved--
["The Gift of Scientific Research" (Level 2), when you and others focus on a certain research, your explanation will increase others' acquisition of inspiration by six times. At the same time, others' correct understanding and thinking of inspiration will be improved.
One hundred percent feedback to you.】
[Ability improvement task, second phase, participate in and complete forty experimental studies.]
The original effect of the "Gift of Scientific Research" ability was to "increase inspiration acquisition by four times", but now it has become "six times," and the effect has naturally been greatly enhanced.
While the ability has been improved, the number of tasks that can be opened has also increased by one, which is "Mission Five".
"Task 5" came just in time.
Now there are four tasks in the system task interface--
Task 1, study of the Young-Mills equation, difficulty level S+.
Task two is semi-topological and algebraic expression, which is to weaken the Hodge conjecture, and the difficulty is S.
Task 3, mathematical construction of annihilation theory, difficulty level S+.
Task four is the construction of the semi-topological microscopic form of CA005, difficulty level S.
Two of the above four tasks are of S+ level difficulty, and two are of S level difficulty. Research on S level difficulty can be completed, but it will also take a long time, and S+ level difficulty is very necessary.
Time and luck.
Now there is an extra blank task five, and you will not be embarrassed to find that there is no vacancy when you need to create a new task.
"It's just that the difficulty of research is too high. Fortunately, everyone is a genius..."
Wang Hao thought.
The effect of "The Gift of Scientific Research" is indeed very good, but the premise is that the partners to cooperate with are very good, so that inspiration can be generated during the research process. For example, some scholars have no inspiration at all when doing research, let alone increase it by six times, even if it increases by six times,
A hundred times, it makes no sense at all.
When facing interdisciplinary and extremely difficult research, it is faster to do research with some geniuses, and the effect is much better than doing research alone.
This is the benefit of collaborative research.
When it reaches the top level of research, it will be difficult for ordinary students to provide inspirational progress, because the research threshold is too high, and ordinary scholars cannot understand it at all and cannot reach the research threshold.
Simply studying the basics required can wipe out most scholars, let alone ordinary students.
They even said that during the research process, there were some contents that even they themselves could not understand.
This is mainly because the research spans disciplines. The algebraic expression of semi-topology includes topology, algebraic geometry, and complexity theory research, as well as complex geometry, fundamentals, etc.
The foundation is still the original semi-topological structure.
When so many advanced subject contents are put together and the research is focused on a certain direction, only scholars in one direction can understand it.
Wang Hao is the special one.
No matter how in-depth the research is and how difficult it is, only he can understand everything from beginning to end, so he is the core character.
After Lin Bohan put forward effective ideas, several people began to conduct the next step of research. They had found a clear direction, and they also expressed their opinions during the research process, "We are using special case expressions to expand the entire semi-topological expression content.
For research, it is necessary to summarize all special case expressions."
"The more scope the special case expression covers, the better."
"Analysis requires detailed logical analysis, and the method developed must also have logical analysis content..."
"It's very difficult. I think we can also start from the difference between semi-topology and topology..."
"..."
Everyone is expressing their own opinions and patiently doing additional research.
What they studied was the general formula of semi-topological expression.
The general formula is definitely very complicated to sum up, and the semi-topological structure that conforms to the general formula can be solved and analyzed to find its corresponding algebraic expression method.
As Lin Bohan said, not all semi-topological structures can find corresponding algebraic expressions.
If it does not conform to the general formula, it is impossible to make an accurate expression, and you can only find an "approximate expression" through more complex analysis, or express it in other ways.
This is actually very similar to the solution of partial differential equations. The partial differential equations that can be solved are all special cases. They found a way to verify whether the partial differential equations can obtain real solutions.
If it cannot be solved directly, it can only be approximated by other methods.
…
After the general direction has been determined, the remaining work is only a matter of time.
The semi-topological microscopic group of four spent a whole month in the office doing research.
Every day I just think hard and discuss the follow-up content together.
A month later, they finally completed the content of the general formula.
The general formula is not a simple formula, but contains four sets of equations, as well as the content of functional analysis of multiple numerical substitutions.
It's very complicated to talk about, and it's also very complicated to really understand the general formula.
If we use general formulas to analyze semi-topological problems, it is also very complicated, but general formulas can solve some problems that were originally unsolvable.
Some semi-topological expression problems alone can become a difficult research. With the general formula, as long as the relevant values ​​​​are substituted into it, the corresponding algebraic expression can be directly found, or it is determined that algebra cannot be done.
Expression, only approximate expression can be obtained.
This solves the problem of semi-topological algebraic expression and connects the relationship between algebraic geometry and semi-topology.
After completing the research, everyone's face showed excitement. They naturally knew how important the research was and how influential it would be.
"This research is worthy of a Fields Medal because it will advance the mechanism of superconductivity and may even win a Nobel Prize!"
"If you add in the previous research on semi-topological microscopic morphology, I feel that the Nobel Prize is already around the corner."
"Should the four of us win together or separately?"
"It's hard to say..."
"Wang Hao and Kachel definitely can't take Fields anymore. It's difficult for the two of us alone... but Nobel can work with a few people, maybe there is a chance!"
"I think so……"
Luo Dayong added at the end that he and Lin Bohan were the most excited among the four.
Both Wang Hao and Bill Carr can be said to have achieved great success. They have already been Fields winners, and their reputations are known all over the world.
both of them
It is relatively unknown, and even if it participates in major research, it is considered to have only made a little contribution.
Although this is indeed the case, they still hope to achieve world-class honors.
While listening to the discussion of several people, Wang Hao smiled and said, "Don't worry, we will definitely win the Nobel Prize together for research related to semi-topological microscopic morphology."
"We are working together on research. Does the Nobel Prize Committee still distribute the awards separately? Two?"
"Right."
"No problem."
To be continued...