From University Lecturer to Chief Academician
Chapter 350 Result Release, Prime Number Pairs, New Direction of Mathematics!
After many verifications, Wang Hao and others determined that '5 and 17' are a prime number pair node of the function, and then substituted other prime numbers to solve the equation transformed from the function to obtain another corresponding prime number.
This discovery is very significant.
Mathematics has not been able to find a similar equation that can be sure to get a prime number solution until now.
Everyone realized that the function might imply some regularity in the occurrence of prime numbers.
They made a summary of the research, and also submitted the finished paper to "New Advances in Mathematics", and then Wang Hao published the public information on the Internet.
That's the news posted on Weibo.
Wang Hao's Weibo account has tens of millions of fans. Any news he releases can arouse heated discussions, and the release of relevant research progress can even attract the attention of countless media.
When the news was actually released, it quickly attracted a lot of discussion.
The function that Wang Hao produced was reported before, and he himself made a public explanation. Later, he also released a personal reward, announcing that anyone who has a breakthrough in the research of the function will be rewarded with a high personal bonus.
At the beginning, the bonus was 100,000, and then it gradually became 500,000.
It can also be seen from the increase in the bonus amount that Wang Hao attaches great importance to the research of functions, and it can also show how difficult the research of functions is.
Wang Hao was originally one of the world's top mathematicians, especially in the field of number theory and partial differential equations. It is no exaggeration to say that he is the 'first person', because he proved Goldbach's conjecture and solved the Millennium The NS equation problem, one of the seven major mathematical problems.
For the current research on functions, Wang Hao personally announced that he will give bonus support, and the bonus is said to be 500,000 yuan, which will naturally attract many scholars to participate.
However, research has not progressed.
Many scholars in the field of mathematics even think that functions have no meaning.
Wang Hao suddenly announced that there was a breakthrough in research, which naturally attracted a lot of attention, even ordinary people were very concerned.
From the perspective of ordinary people, Wang Hao is different from other mathematical physicists.
What I'm talking about here is not about achievements, but about his research field. Many mathematicians and physicists are also at the forefront of science, but the content of their research is completely incomprehensible to ordinary people.
Many mathematicians are also at the forefront of research, but their research is incomprehensible to ordinary people and basically divorced from technology.
Especially theoretical physics, and basic mathematics.
For some basic mathematics research, most of them can't even understand the title, so they are naturally not interested.
Wang Hao is different.
Superconductivity and anti-gravity are directly related to science and technology. The current research is also a theory, which really annihilates the most basic content of physics, especially the research of basic mathematics. It is not easy to even understand the title of the top research in some disciplines.
Wang Hao's research is different. He not only researches theory, but also researches technology. Anti-gravity technology and superconductivity theory are all direct scientific and technological research.
He led the team to create the most talked about anti-gravity aircraft.
The function presented now is indeed incomprehensible to ordinary people, but it has been discussed once before, and many scholars have popularized Wang Hao's research, so people can naturally understand its meaning--
"The study of Wang's function is related to the quality point structure."
"If the structure of the most basic mass point of annihilation physics can be completed, then the other three microscopic forces can be connected in the future, and the grand unification of physics can be realized."
How amazing is that?
In the field of theoretical physics, string theory is also considered a grand unified theory, but almost everyone knows that it is impossible, and the grand unification of string theory is just an imagination.
One is because many contents of string theory, including the eleven-dimensional space and membrane universe, sound a little unreliable, it is difficult to get close to real life, and it deviates far from conventional physics.
Also, it is important to note that string theory has not been proven.
String theory holds that the basic unit of matter is a string, but there is no experiment to verify it.
A theory that has not been verified, even if its theory can be unified, cannot be sure whether it is true.
Annihilation physics is different.
Because it is directly related to the research of anti-gravity, superconductivity, etc., the theory has been promoted to "physics" and has been recognized by major international institutions.
Under such a background, annihilation physics can realize the unification of physics, and it will be recognized by many people.
In short, many people know that the function Wang Hao put forward is of great significance.
Now that Wang Hao publicly announced that the research has progressed, it will naturally become the focus of public opinion, and the information he released is indeed very astonishing.
"If my understanding is correct, Wang Hao said that after substituting a few prime numbers, the transformed equation can still find prime numbers?"
"And, there are more than one group!"
Just taking this point out is already amazing enough. Even the student groups of ordinary universities can roughly understand that there are many "prime number ungrouping" and how significant it is, which probably shows that the so-called "higher-order particle function" , which is the 'Wang's function', which contains the law of prime numbers.
The law of prime numbers can be said to be the ultimate pursuit of basic mathematics research.
Many people know that the existence of prime numbers is irregular, but in terms of the principle of the existence of prime numbers, there are laws in theory.
Herein lies the paradox.
In theory, there are laws of prime numbers, but in practice, no laws can be found at all.
Because of this, there are so many mathematical conjectures related to the existence of prime numbers in number theory.
Some mathematicians believe that "if you can decipher the law of prime numbers, you will be able to understand the deepest mysteries of the universe."
This is not an exaggeration at all.
Thinking from this point of view, you will know how shocking Wang Hao’s announcement is that there are multiple sets of “prime number solution points” for high-order particle functions.
Two things are explained at the back of the news. One is related to Wang Hao’s decision to reward Zhu Kuiyang with 800,000 kinds of flower coins, which can be regarded as fulfilling his promise; the other is related to the release of the results. New Progress".
At the same time, Zhu Kuiyang will also be listed in the column of the author of the second paper "Research on the Specificity of Higher-order Particle Functions", and his contribution to the research will be specifically stated.
In this way, many people also discussed Zhu Kuiyang.
If it is a well-known scholar in the mathematics field who helps Wang Hao in research, it doesn't sound like a big deal.
It would be different if he was a doctoral student. Many people exclaimed on the Internet, "Zhu Kuiyang is definitely a genius!"
"Donggang Polytechnic's Ph.D candidate is amazing, but Donggang Polytechnic's Department of Mathematics... ahem..."
"It's really amazing. I can't imagine being able to help God Wang Hao in his twenties!"
Everyone knows that Zhu Kuiyang has a promising future.
However, in the field of mathematics, many scholars are also surprised by Zhu Kuiyang, but the truly top scholars pay more attention to the research of higher-order particle functions.
no doubt……
When a function is sure to have a lot of 'all prime points', it must be very unusual, but the message released by Wang Hao is also very vague, not sure whether there are 'innumerable all prime points', or only a few all prime numbers point.
The meaning of the former is completely different from that of the latter.
They didn't have long to wait.
Wang Hao is not an ordinary scholar, his contributions will be published immediately.
Bruce Pulitzer, the editor-in-chief of "New Advances in Mathematics", is also an old friend. After Pulitzer received the submission, he immediately knew what to do.
Untouched, quickly put it on the official website!
In order to achieve the greatest effect, even the papers on the official website are free of charge, as long as you register as a member, you can download them directly.
So after waiting for less than a day, the introduction and download link of the two papers could be found on the homepage of the official website of "New Advances in Mathematics".
The name of the first paper is "Building Higher Order Particle Functions Based on Riemann Functions", and the first author of the paper is Wang Hao.
Ding Zhiqiang and Qiu Hui'an are noted as other contributing collaborators.
The content of this paper is very complicated, and it describes the derivation process of higher-order particle functions.
The name of the second paper is "Research on the Specificity of Higher-order Particle Functions", that is, it is found that '5, 17' is the prime number pair node of the function.
"We have done twenty-three verifications, the numbers are 19, 29, 31..."
"All the verifications can correspond to finding another prime number."
This is the description of 'higher order particle function'.
The final summary of the paper also said, "23 verifications do not mean 100% accuracy, but we are not trying to prove a mathematical theorem, but to illustrate the specificity of higher-order particle functions."
Many mathematicians saw the content of the second paper, and immediately began to verify it.
Everyone picked up materials and the flames were high!
In just a dozen hours, mathematicians from all over the world published the numbers they verified, and said they had obtained another prime number.
Although the verified numbers did not exceed one thousand, to a certain extent, it can already explain the law.
5, 17, are indeed prime pair nodes of the function.
When a function contains countless all-prime points and the distribution is very dense, it must not be described as a coincidence.
Of course, mathematics is a rigorous subject.
Many institutions are organizing special teams to conduct further verifications, and the numbers they have verified are more than 1,000.
Such verification is more convincing.
If it is only verified by the way of solving, it will become very difficult to substitute a larger prime number, after all, the speed of the human brain is limited.
Some institutions wanted to substitute '5 and 17' to make a plane image of the corresponding function, but soon found that only an 'approximate image' could be made, because after substituting a single number, in most cases, the computer It cannot be solved directly at all.
At this time, the top mathematics community is concerned about another problem--
"Higher order particle function, are there other prime number pair nodes?"
"How many pairs of prime numbers exist in the function? Is it a fixed number or an infinite number?"
These two questions are so fascinating.
'5 and 17' is a prime number pair node of the higher-order particle function, so are there other prime number pair nodes? Many teams have started to do research on the problem.
In fact, just like Mersenne prime numbers, mathematicians can find out the laws of Mersenne prime numbers and are interested in discovering Mersenne prime numbers.
A top mathematician commented, "The study of prime number pair nodes of higher-order particle functions is likely to become a major direction of prime number research in the future."
"This alone is enough to show that the higher-order particle function, that is, Wang's function, has extraordinary value in mathematical research!"
...
Donggang Polytechnic University.
Since Wang Hao released the news, Zhu Kuiyang's life has changed completely.
Zhu Kuiyang was in an embarrassing situation before. He hoped to continue to engage in mathematics research, but he could not stay in school to engage in teaching and scientific research.
If he can't stay in school, he can only go to a school that is far worse, or go out to find a job and change his industry completely.
It's different now.
Several powerful directors of Donggang University of Technology, including the leaders of the departments, came to talk to Zhu Kuiyang kindly, persuaded him to stay in the school and promised to be promoted to associate professor after one year of work.
One year of work is due to the requirement of an associate professor, who needs to work as a teacher for one full year.
Now the school is afraid that Zhu Kuiyang will leave directly. At that time, it will not only be a matter of losing talents, but the school's reputation may also be damaged.
Zhu Kuiyang not only helped Wang Hao's research and signed the most concerned mathematics papers, he also became a "recognized genius".
If Zhu Kuiyang graduates and leaves school, it may cause some public opinion controversy!
Zhu Kuiyang felt like he was dreaming. He was determined to stay in school and received a bonus of 800,000 R from Academician Wang Hao. He became the envy of his classmates.
even……
Even if he has not officially graduated, the school "urges" him in advance to let him think about the research topics after he takes office, and confirms that he will provide financial support.
This kind of treatment is simply unthinkable!
Zhu Kuiyang didn't worry about the subject at all, he had already made up his mind and went to study Wang's function.
This direction is what he likes. Wang's function is also a new direction in mathematics, and it is likely to become a popular direction in the future.
Engaging in related research now can be regarded as taking the lead in the first batch of actions.
There are many scholars who hold similar ideas with Zhu Kuiyang. Every scholar knows that Wang's function has great potential and contains rich treasures.
Now is the initial stage of mining, and it is easier to dig out better content in the early stage.
We must hurry up!
Many teams think the same way, not only the mathematics team, but also the computer team. Wang's function is very complicated, and it is very, very difficult to research something by mathematical means.
Computers, are different.
Wang Hao's second paper directly helped some teams point out the direction.
A team at Stanford University determined the direction almost on the same day. They wanted to verify the prime numbers within 100,000 to see if there were other prime number pairs nodes of the function among the numbers within one million.
The method of this study is also very simple, that is, to use a computer for coverage checking.
No matter how complicated the function is, it is only a quaternary function, and because of its particularity, you can first substitute a smallest odd prime number '3', and then fix two prime numbers as 'prime number pair node alternatives' to transform the function into a complex equation.
The next step is to perform a coverage check.
The computer does not need to analyze the converted equation, but directly covers and substitutes it, starting from the number '3', verifying 3, 5, 7...even to a million or more prime numbers, to see if there are any numbers that can make both sides of the equation The calculation results are the same.
Same result, documented.
If the results are different, the next set of 'prime number pair node candidates' can be verified.
This calculation method is very fast, and the programming is relatively simple. The only thing is that there are a large number of 'prime number pair node candidates' that need to be verified.
So they applied to use the supercomputer of the stock song.
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