From University Lecturer to Chief Academician
Chapter 261 Hodge's Conjecture? Is it just a prelude to research? Do not make jokes!
Crossing rivers and demolishing bridges, crossing the sea with the sky concealed, building plank roads in the open and hiding old warehouses in the dark, plus drawing salary from the bottom of the pot...
A lot of classic idioms can be used in Parsons' behavior.
If he stood on a decent standpoint, he would definitely be labeled as 'witty', but on other standpoints, he would directly become 'despicable and shameless'.
In fact, this is the case with many things, and the evaluations are naturally different from different positions.
For example, Zhuge Liang, the famous military adviser of the State of Shu, can definitely be described as resourceful and witty, but from the standpoint of the State of Wei, he can be said to be treacherous, cunning, scheming, and even despicable.
exactly.
A large group of string theory scholars are on the opposite side.
In the face of a despicable and shameless villain, even if they all think they are gentlemen, it is terrible for gentlemen to break out.
So Parsons was hospitalized.
The good news is that all he suffered were traumatic injuries, but several parts of his body were covered with white cloth, making him look pitiful.
Parsons is lying in bed, reflecting.
He felt very wronged, because he also believed that he had classified the annihilation system into the category of string theory. Because of this, the paper will be expanded later, and there will be a logic of 9+1 dimensions.
It was also because of this that he readily accepted the invitation to attend the party in the small town of Princeton.
In the end, the wolf fell into the tiger's mouth...
After this incident, Parsons knew that he had become an 'absolute traitor' in string theory. He not only turned to study the annihilation theory, and made achievements in the research of the annihilation theory, but also inadvertently pitted Scholars of Edward Witten and string theory.
A lot of media have reported the content, and scholars of string theory feel that they have been tricked, not to mention that the incident is directly related to Edward Witten.
"I became a Poisson..."
"No, it should be a step further than Poisson..."
In the history of the development of microphysics, scientists have been arguing endlessly about whether light is a particle or a wave. Poisson is a scientist who insists on the particle theory of light, and he insists that light is composed of particles.
By chance, Poisson calculated a problem--
When monochromatic light is irradiated on a small circular plate or bead with an appropriate diameter, annular diffraction fringes that are mutually concentric circles will appear on the subsequent light screen, and a very small diffraction fringe will appear at the center of all concentric circles. bright spot.
This is the Poisson bright spot.
Poisson hoped to overthrow the wave theory of light with this conclusion, and then a dramatic scene appeared, and Poisson's bright spots became strong evidence of the wave nature of light.
At that time, Poisson was labeled a "traitor" by the particle school, and the reputation of the particle school can be said to be "stinky street".
Now Parsons feels that what happened to him is very similar to Poisson, and Poisson just completed a study, and he incidentally disgraced a large group of string theorists.
So he goes a step further than Poisson.
"It seems that in the future, we can only firmly stand on the side of the theory of annihilation..."
Parsons thought depressingly that the purpose of his research was just to make a living. Research can get higher funding and make life easier.
This is his purpose.
In the end, he had to be forced to stand, and he felt very depressed. He couldn't help but think of his "old friend" Paul Phil Jones.
Now there are two 'traitors' in the string theory school, one is him, and the other is Paul Phil Jones.
In the future, they should contact more often!
...
In the current international physics community, string theory and annihilation theory have become opposing theories.
Although it is not a direct opposition, the situation is similar, a bit like the opposition between the particle school and the wave school.
The advantage of string theory is that the mathematical system has been developed for decades, has a solid accumulation and systematic research, and has been applied in many theories.
The advantage of the annihilation theory is that it predicts the particle collision experiment, and it is easier to accept when it is connected with the experimental results.
The research contribution of Parsons lies in that he developed another direction of annihilation theory—based on the definition of annihilation system, to demonstrate some key physical issues, and to develop related directions of the theory.
Paul Phil Jones, on the other hand, is working in the field of combining quantum physics.
As the founder of the annihilation theory, Wang Hao is very pleased with Parsons' research. He just hopes to see that the annihilation theory is applied in various research directions, and more scholars participate in the research.
"Parsons, what a genius!"
Wang Hao couldn't help sighing that the development of a physical theory cannot be accomplished by a single scholar, and requires the participation of many scholars.
The main research direction of Wang Hao is different from that of Parsons and Paul Phil-Jones. He studies the mathematical framework of annihilation theory.
The mathematical framework is mainly the underlying definition, which is to lay the foundation for the theory of annihilation.
Research based on the foundation can be done by other scholars.
At the same time, Parsons' research has benefited Wang Hao. He found that the other party's explanation of the "high-dimensional problem" is very interesting.
Wang Hao's public results did not explain what high-dimensionality is, but his own understanding is "cause and effect relationship", which is the formation of three microscopic forces under the influence of space compression.
Parsons' understanding is the real 'high dimension', for example, four-dimensional, five-dimensional, or higher dimensions. His mathematical explanation for this and the method of researching the definition make Wang Hao feel that letting go It also seems to be very useful in the study of semi-topological microscopic forms.
Multi-element constitutes a conductor, and the semi-topological microscopic form inside the conductive state is extremely complicated. It may really exceed the limit of dimensions, and it is almost impossible to completely decipher it.
Wang Hao's research on microscopic morphology is stuck here, and he can only do a part of the research instead of expressing it as a whole.
Parsons' research methods inspired him. In many cases, the research of microphysics does not need to be fully expressed. It can also start from the direction of theoretical physics and give reasonable explanations in combination with known phenomena.
"Therefore, it is also possible to shape a mathematical framework in a speculative way, and express the division with equations to describe the whole..."
Wang Hao thought, "We can start with known materials and use a large amount of measured data to create a 'theoretical' semi-topological microscopic form."
"Then start with 'W1002'..."
'W1002' is the superconducting material experimental group. The superconducting material developed has a superconducting critical temperature of 132K, and its molecular expression is composed of seven elements.
If the semi-topological microscopic shape shaping of 'W1002' can be completed, even if it is only a "theoretical" shaping, the development of semi-topological theory will be very valuable for the study of the theoretical mechanism of superconductivity.
Of course, this research process is not easy. The macromolecules composed of seven elements and fifteen kinds of atoms form a semi-topological microscopic form that is too complicated to imagine in the mind.
He can only deduce the determined microscopic morphological structure based on the known material properties, including the specific atomic composition, anti-gravity performance, and the relationship between element combinations, and then do a "theoretical" analysis.
...
Wang Hao devoted himself to the theoretical framework of the semi-topological microscopic morphology of complex materials.
This work requires a lot of brain cells, and the research may not be fruitful.
So he was not in a hurry to complete the research, but was leisurely working and living every day, just thinking about it when he had some ideas.
On this day, Deng Huanshan came here to give an experimental work report. Their experimental research discovered three new materials with superconducting critical temperatures of 79K, 81K, and 93K, respectively.
The superconducting critical temperature of the three new materials did not exceed 100 K, so naturally it would not be considered a major discovery, they only tested the new materials.
The experimental group’s naming rule for the new materials researched is that for materials that are determined to be valuable, the naming code starts with ‘CW’; for materials of little value, the naming code starts with ‘CA’.
The three new materials were named 'CA003', 'CA004' and 'CA005'.
"CA005 is very interesting." Deng Huanshan said in his report, "We have produced some materials experimentally and conducted anti-gravity tests. Among them, the AC field values of 3 and 4 are between 25 and 30, while CA005 has reached 34. "
"Thirty-four percent?" Wang Hao frowned slightly.
"right."
After Deng Huanshan finished speaking affirmatively, he shook his head and said, "But it's useless, it's too early to talk about anti-gravity, and thirty-four..."
Wang Hao interrupted and said, "It's a very high value!"
He said it very seriously.
Deng Huanshan also realized Wang Hao's seriousness, and suddenly became a lot more serious.
Wang Hao did not explain, but immediately explained the work, "You prepare more CA005, I need to conduct careful research on this material."
"good!"
Deng Huanshan didn't know what Wang Hao was going to do, so he nodded seriously.
Wang Hao attaches great importance to 'CA005', and when he heard the value of 34%, he felt very unusual.
Deng Huanshan didn't understand the principle of the AC gravity experiment, but he had a clear understanding of the AC gravity experiment. They had already increased the intensity of the AC gravity field, that is, the anti-gravity intensity, to more than 40%.
But they used oxide metal superconducting materials, oxide metal superconducting materials, the element structure is very simple, and they conducted many AC gravity experiments on a single material, and only then did they increase the intensity of the AC gravity field to more than 40%.
The semi-topological microscopic structure of each material is different, and the most suitable material layout for AC gravity experiments will also be very different.
The current material layout for anti-gravity measurement is the layout with the highest value.
However, the highest values are for oxide metals, not new materials with complex elemental structures.
A new material with a complex atomic structure can achieve 34% anti-gravity properties under this layout, which is an incredible value.
After Deng Huanshan left, Wang Hao took a deep breath and immediately decided to create a new task——
【Task 4】
[Research project name: Semi-topological microscopic morphology of 'CA005' materials (difficulty: S). 】
[Inspiration value: 0. 】
"If the micro-morphology of 'CA005' can be completed, the study of semi-topology will definitely go a step further!"
"On the research level, 'CA005' is more valuable than 'CW002'!"
Wang Hao really got serious.
On the second day, he found Liu Yunli and He Yi, and explained the problem of 'CA005', "You have done the communication gravity experiment of this new material, right?"
He Yi said, "Thirty-four percent, I did it."
"I also participated."
Liu Yunli followed suit.
Wang Hao nodded and said, "From today onwards, we will study this new material by exchanging gravity research, you all should get ready."
Liu Yunli asked with some doubts, "Like the previous research?"
He Yi also listened carefully.
Wang Haodao, "Yes, it's the same research method as in the past, constantly changing the layout of superconducting materials to study and increase the strength of the AC gravity field."
"I will also directly participate in this research. Remember, the main content must be kept secret."
Liu Yunli and He Yi nodded together.
They looked at each other and still didn't understand.
Although they know the principle of the communication gravity experiment, for a brand new material, it seems that the research on the direction of communication gravity is not worth the gain.
Wang Hao glanced at the two of them and explained, "This research has two uses, both of which are very important. One is to rely on research related to exchange of gravity to deduce the semi-topological microscopic form of 'CA005'."
He Yi asked, "Is it research theory?"
"right."
Wang Hao nodded and continued, "Actually, if it's just to deduce the microscopic structure, it will be helpful to do related research on any kind of complex conductor material."
"'CA005' is relatively complex and not the best fit."
The other two listened carefully.
"That's why the second item is more important." He said seriously, "I think that using 'CA005' as the conductor material will greatly increase the strength of the AC gravity!"
"ah?"
"Significantly increased?"
Both Liu Yunli and He Yi were stunned. They didn't understand much about theories, but they could understand the meaning of the second article, which is to communicate the increase in the strength of the gravitational field.
The strength of the exchange gravitational field they created before has exceeded 40% at its highest.
Greatly improve...
fifty points?
sixty points?
They couldn't imagine it, but they became very excited!
...
Wang Hao has determined the new research content, but it will take some time to prepare for the experiment.
In addition, they already have experience in the research of the strength of the exchange gravitational field, and it can even be said that they have rich experience, and the work he has done is just to listen to the experimental data and guide the main direction.
So the content of the work is not much.
Currently, the research on microscopic morphology is still troubled, and the focus is still on the expression of semi-topology, because the expression of some algebraic geometry is not clear, so it is necessary to introduce some topological content to explain the performance of gap fluctuations.
The so-called “gap fluctuation effect” is the effect of extruding from the microscopic shape gap to form the exchange gravity field in the process of semi-topological shape extrusion.
What Wang Hao wants to study is the "morphological gap". Only when the expression of the gap fluctuation problem is solved, can the complex microscopic shape and the exchange of gravity field be directly connected.
If you give an example, you can imagine a balloon with a gap. It is necessary to study the specific size and shape of the gap on the surface, so that the gas ejected from the gap will be faster and the pressure will be higher.
Because the research involved topology and algebraic geometry, Wang Hao re-grouped Birkar and Lin Bohan.
They all have experience.
For the expression of the "morphological gap", Wang Hao has no clue at all. He can only explain the problems he encountered, "I want to conduct more in-depth research on the expression of microscopic forms."
"In this research, I hope to find a way to express the special convex shape by means of algebraic geometry."
He explained in depth.
Birkar and Lin Bohan thought together, and slowly frowned.
"This requires linking algebraic geometry and topology together and forming an orderly, expressive pathway," Bilkar said.
"I think so too."
Lin Bohan said, "If you want to do geometric topological expression, you must have an expression path."
"I want to achieve..."
Bilkar thought about it and said, "Perhaps, we should solve Hodge's conjecture first?"
The room suddenly fell silent.
Lin Bohan was stunned.
Wang Hao was also taken aback by Birkar's statement, can he solve his problem by solving Hodge's conjecture first?
this……
"Why don't we try?" He thought about it and said.
"..."
"..."
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