"import time
class scifirobot:
def __init__( self ): bstacle_detected = false......"
Lines of code kept emerging amidst Qiao Ze's rhythmic tapping.
There is no doubt that the body Doudou designed for himself has advanced visual perception and motion control capabilities, which also allows Qiao Ze to be more unrestrained when designing obstacle avoidance algorithms.
Although Qiao Ze always thought that he was not very good at programming, after seeing the code typed by others, he decided to do it himself.
The task is not easy, because Doudou has designed too many too complex sensors and control interfaces, and uses cross calculations to obtain more precise positioning and control capabilities. Therefore, Qiao Ze has to consider more and more carefully when designing the algorithm.
Theoretically, the more complex the system, the lower its reliability.
Electronic systems offer superior performance, but are often less reliable than the simplest mechanical systems.
But fortunately, for Qiao Ze, this is much simpler than thinking about those difficult problems in number theory.
No matter how difficult programming is, it is always difficult to solve a series of problems caused by Yang-Mills theory.
Just think of it as relaxing your brain.
As for Su Mucheng, she was also very relaxed during this period.
Once people find a reason to let themselves go, they lose the motivation to work hard.
So since understanding the magical power of the average method, Xiao Su has lost the motivation to continue studying hard.
But the days were more fulfilling.
With Qiao Ze's connivance, classmate Xiao Su began to learn boxing from Sister Ying. The two girls, who were about the same age, could go out shopping, join in the fun...
Then he came back and talked to Qiao Ze about the fireworks in the world.
In the words of classmate Xiao Su, this is to help Qiao Ze experience life that he usually doesn't pay attention to. Expand the breadth of Qiao Ze’s life.
After hearing this explanation, the person involved felt very stable.
But another group of people are also trying their best to help Qiao Ze broaden the breadth of his life.
And most of these people are concentrated in Europe.
…
As we all know, Cern, the European Organization for Nuclear Research, located at the border of France and Switzerland in Europe, has been the largest particle physics laboratory in the world since its establishment in 1954.
It also has the most advanced large particle collider in the world.
From the start of operation of the 28 gev proton synchrotron in 1959, to the first test run of the Large Hadron Collider built on the off-line Large Electron-Positron Collider in 2008, to the present day, physics from all over the world Scientists have experienced countless particle collisions and accumulated countless complicated data.
There is no doubt that these data contain extremely high value. An inappropriate metaphor is gold hidden in shit.
The only problem is that using existing theories and technical analysis methods, if you want to dig out gold from this pile of shit, the resources you need to consume are likely to exceed the value of the gold contained in the shit mountain itself.
But this time is obviously different.
Although Cern's two colliders were under maintenance for some time and were not powered on, most of the thousands of physicists stationed at Cern have recently been busy making judgments based on Qiao Ze's doctoral thesis. Verification work is in progress.
In the past, they were helpless with this data because they didn't have the right tools. But Qiao Ze's doctoral thesis provided them with an extremely effective verification method. That is the important phase change equation given at the end of the paper: v =\sum_j (a_jb_j +ext{.})
With this equation, all they need to do is to find the data from the huge database that can be brought in to make both sides of the equation equal, then synthesize the data from the collision at that time, and wait until the collider is turned on to conduct repeated collisions. Testing and comparing with the latest data obtained can finally prove whether the results given by Qiao Ze are correct.
Speaking of which, Qiao Ze indeed helped them greatly simplify their workload, but there was too much data after all.
If before there was this phase change equation, the difficulty of finding relevant evidence was one hundred, then with the phase change equation, the difficulty is probably reduced to fifty.
It has gone from a basically impossible task to a task that can be accomplished as long as you are careful enough, work hard enough, and are willing to invest in computing power.
So everyone is very busy during this time.
It has become everyone's top priority recently to put down their original work, select the data segments they think are most likely, and use supercomputers to verify them.
I am usually very popular, and I have started to cooperate with acquaintances. Everyone uses different data to analyze separately. If the results happen to come out, they will publish a paper together. This way you have a greater chance of success. Anyway, papers published by cern can even have the author list almost as long as the paper.
Yes, Qiao Ze took some time off after completing his doctoral thesis. Start worrying about some application issues.
But thousands of physicists around the world are busy working on his paper.
For Qiao Ze, he solved this problem just to get a $1 million bonus from the Clay Institute. But for these physicists, if Qiao Ze is correct, it means that they can Use mathematical theorems to build the main framework for describing natural theorems.
And use the methods given by Qiao Ze to solve more problems.
The Yang-Mills field mass problem solves the strong interaction, a theory that cleverly uses massless building blocks to create particles with mass. When Qiao Ze proved this with mathematics, it meant that physicists could use this theory to explore the origin of hadron mass.
This also means that particle physics and the Standard Model will likely have disruptive developments.
So everyone’s motivation is really high during this period.
Verifying the results may not necessarily make them famous, but if it is confirmed that Qiao Ze is correct, and then they borrow Qiao Ze's mathematical tools to push the standard model one step forward, it will be a Nobel Prize-level achievement.
It is conceivable that these physicists hope that the paper is correct even more than Qiao Ze. Qiao Ze's superspiral algebra, transcendental geometry, and related theories are really perfect in solving the Yang-Mills field mass problem.
Although the most eye-catching thing recently is the material model developed by Qiao Ze, which indeed caused a shock within Cern, the effect is to make many Chinese physicists have a higher status.
Although everyone discussed it a lot, they couldn't help much.
After all, it involves the field of artificial intelligence.
It belongs to a completely different industry from theoretical physics.
This is also the case with scientific research in the new century.
Even if they are both engaged in physics and are said to be the same subject, the theory and application may even be completely unrelated.
This is the sadness of being human.
The existing methods of knowledge inheritance are a waste of the best time in life just by learning the achievements of predecessors. Even if you are a genius, the remaining time will probably only be enough to achieve some achievements in one direction. If you want both depth and breadth, it is almost an impossible task.
It can only be said that not everyone is Qiao Ze.
After the incredible shock and various discussions, the only emotion that arose was probably envy or jealousy.
It seems that there are so many amazing geniuses appearing in every era. Scientists who live in the same era as these talented guys are both lucky and unlucky.
Fortunately, they have the opportunity to witness one academic miracle after another, and experience the joy of hearing something in the morning and dying in the evening.
Unfortunately, after a few years, their names may only be qualified to be reduced to the background of these talented people.
For example, when you mention Euler, Gauss, and Lagrange, and then ask someone to name a great mathematician of his generation, most people's minds will get stuck.
Who else is there?
Obviously this era is similar. Perhaps a few hundred years from now, when we think of mathematicians in the 21st century, we will probably only remember geniuses like Joe Ze and Schultz. As for everyone else, they will disappear from people’s memories and only exist in a corner of the digital storage module.
It's like they're dealing with a mountain of gold-hidden data.
However, today the discussion about material models has subsided, and these physicists are having their own carnival.
…
"Oh, Professor Lyle, what are you in a hurry for? Aren't you going to eat?" Frano Shore felt confused when he saw many people in the restaurant put down their dishes and hurried away after receiving the call.
Most people in the West don't pay much attention to Chinese food. This is not a stereotype, it is a fact.
Lunch is usually just a sandwich or even two slices of bread, especially when you get busy.
Most of the people who take time to come to the restaurant near the French border at noon are particular about the quality of life.
Nothing major happened, they definitely wouldn't have finished their meal, or even left in a hurry just after ordering.
So when I saw an acquaintance, I immediately stopped him and asked him.
"Hasn't anyone told you yet? A laboratory has verified Qiao Ze's paper. They have determined the correctness of the phase change equation by comparing the data of three energy levels."
"What? The verification has been successful? Who is it?" Frano Shorten also felt that the steak just served on the table was not very fragrant. After asking this question, he hurriedly picked up the paper and began to wipe his mouth.
It's a shame, I should have just bought a burger if I had known better. This can be eaten directly from your hand.
But at this moment, any meal is clearly less important than this outcome.
Not verifying the adequacy of the evidence given by the other party immediately is disrespectful to the cause that we have been fighting for.
"Yang, I don't know if you know Professor Yang from Huaxia, from Huaqing University."
"Wait for me, Professor Lyle, I'll take your car there. Do you know? I guessed that the Chinese people would be the first to verify the results. I knew it from the fact that Qiao's paper was published in Chinese. They must have I got more ways to locate that data from Joe.”
"Okay, stop complaining, Frano, it doesn't matter who verified the results. What's important is that we have to make sure this theory is correct, you know? I felt a light. I have a feeling , we can use the method given by Qiao to clarify the unexplainable contradiction between the particle mass and the Higgs mechanism."
"Ha, Lyle, so you want to win the Nobel Prize?"
"Don't you want to?"
"Okay, let's not talk about this anymore, let's go quickly!"
…
The same scene is happening in every corner of the European Organization for Nuclear Research, and crowds of people are beginning to gather towards Building 17, where Professor Yang is located.
But those who were in the restaurant at noon were obviously late.
The building has been temporarily closed, and there are several people who look like students outside who are explaining to everyone.
"Dear professors, I'm sorry, our conference room is already full. Please be patient. After the meeting, we will send the verified data and results to the shared database for everyone to check..."
…
"Hey, I'm late. I knew it. It's a pity. It would be great if I didn't suddenly get greedy for that steak at noon." Frano Shore said regretfully.
If he could get in before it was full, he would be able to see the calculation report immediately and determine the credibility of the news immediately.
It's a pity indeed.
"Okay, don't lie to yourself, Frano, is it just because we went to the restaurant for lunch at noon that we can't get in? No, it's mainly because our achievements are not high enough." Professor Lyle next to him smiled and laughed at himself.
Frano Shore turned his head and glanced at Professor Lyle beside him, and then followed his gaze. He happened to see Edward Witten squeezing through the crowd, and then communicated with the reception staff for a few words, and then directly was put into the building.
Many people outside the building saw this scene, but no one had any objections.
Because everyone who can stand here knows that if one day they can also win the Fields Medal or the Nobel Prize, or the Wolf Prize, the Franz Cassel Prize, etc., they will also can enjoy the same treatment.
It's like Nobel Prize winners have special parking spaces here, which are very spacious, and others will consciously reserve these parking spaces.
It seems unfair, but in fact, for the people here, this is the greatest fairness.
They will even protect this privilege unconsciously, because everyone here holds the hope of one day receiving the world's top awards and becoming an academic leader.
What if I object to this privilege now and get the award in the future?
To say the least, academia trusts authority.
The opinion of one big boss is more influential than the opinions of a hundred street professors.
"Okay, don't stay here. I have a hunch that this meeting will end soon. It's better to go back and wait for the results." Professor Lyle said.
Frano Shore nodded and said: "I just happened to buy a sandwich first, but unfortunately I only took one bite of the steak. It cost me 50 euros including the tip."
"Haha, forget about the steak. If the result is confirmed to be correct, I will buy you a drink tonight."
"It seems that I am determined to drink this glass of wine. Although I don't like the Chinese people very much, I believe that their verification this time must be rigorous. It has probably been verified internally many times."
"Speaking of this, do you think Professor Qiao knows the result?"
"Well... who knows?"
…
In Building No. 17, Edward Witten also asked Yang Xuanqing the same question.
As the two professors outside the building judged, this meeting did not take long. Everyone could basically confirm that the results were correct by just glancing at the report given by the supercomputer.
Unless fake data is used.
However, all data is retrieved directly from Cern's database without manual intervention, which means there is no possibility of data fraud.
The most important thing is that there is no possibility of fraud in this kind of verification work.
All members can access the data in the cern public database. It takes a few hours to complete the comparison, and then a group of people will directly start selecting similar data for secondary verification.
So by the time Edward Witten arrived, the meeting had already ended.
However, after reading the report, he was probably sure that the final result was correct, so he directly asked Professor Yang Xuanqing, who was the first to verify the result.
Professor Yang from Huaqing smiled awkwardly after hearing Edward Witten's question and replied: "Yes, I sent the email."
"Oh? How did he reply?" Edward Witten asked.
Yang Xuanqing smiled even more awkwardly, but did not reply.
The reason for the embarrassment was that Professor Yang thought of the email that Qiao Ze replied, which was just one sentence. No, it should be just five words: "You are too slow."
You can imagine how he felt when he told Qiao Ze the good news with excitement and received only these five words in reply.
Suddenly it felt boring.
But this also made Yang Xuanqing admire Qiao Ze's confidence even more.
Being so calm is enough to show that Qiao Ze never thought that there were any errors or omissions in this derivation from the time the paper was released.
But he didn't want to talk to Edward Witten about Joe Ze's reply.
After all, that reply seemed too arrogant.
But Edward Witten clearly understood the subtext behind his smile.
"I understand, he must be dismissive of this result. That's right, Qiao Ze is the proudest person I have ever met. Of course, he also has the strength and qualifications to be proud. After all, he is always right." Edward Witten shrugged Shrugging, he said.
"Haha..." Yang Xuanqing smiled.
"Is he still busy perfecting the material model?" Edward Witten asked again.
Yang Xuanqing shook his head and said, "I don't know about that. I came here at the end of February and haven't returned to China since. I don't know what Professor Qiao is up to."
This sentence somewhat means to put gold on one's face.
After all, even if he is in the country, there is a high probability that he will not have much interaction with Qiao Ze.
"I just learned from the management committee that the LHC maintenance work is about to be completed. If you can contact Joe, you can ask him for some suggestions after the machine is running. I believe everyone will recognize it. I recently gave him I sent several emails but no reply.”
"Okay, Professor Witten. Of course, don't put too much hope in it. In fact, I'm not very familiar with Professor Qiao. And he doesn't seem to be very interested in our research." Yang Xuanqing answered.
"Hey..." Edward Witten sighed.
I felt a little sad for a while.
He could imagine that many people in this huge research center would be too excited to sleep today. But the guy who created all of this far away in China was indifferent to these.
What a hell.
…
The truth is just as Edward Witten thought.
When the results are uploaded to the shared database, the entire Cern is indeed filled with happy air.
For physicists here, they finally have a mathematical framework and tools that can be used to describe the theorems.
So under this framework, it is hard to imagine how many results will be produced.
Maybe they will be able to rewrite the Higgs mechanism through the method given by Qiao Ze and rewrite the underlying logic of physics.
Really, at this moment, in the eyes of many physicists, Qiao Ze deserves to enjoy the Ancestral Temple.
Of course, many people are also concerned about what Qiao Ze is thinking and doing at the moment.
…
China, Xilin.
The reply to Professor Yang of Huaqing was indeed answered by Qiao Ze himself. That's why it's so brief.
In fact, it was also because he was busy writing algorithms for Doudou at the time, so he responded directly to whatever came to mind.
The deeper reason is that the speed of verification by these physicists has slowed down the pace of publishing some of his ideas.
Qiao Ze talked to three people about the reasons why he paid attention to and studied Yang-Mills theory.
In addition to the million-dollar reward from the Clay Institute, thinking about this problem can help him think more clearly about the world and the laws of the universe.
So what countless physicists are conceiving of, actually Qiao Ze already had a rough idea when he completed the paper.
Just like what he was chatting with two-digit academicians in the small courtyard of the institute that afternoon, although he has not found the perfect mathematical structure to confirm or disprove the grand unified theory, he already has many ideas.
But the content of the conversation with the two academicians that day was quite advanced.
If you really want to get involved in this area of research, you have to do it step by step.
For example, start with the most basic standard model.
Now the physics community has finally verified his thesis, and can step by step come up with the standard model he envisioned.
So after completing part of Doudou's algorithm programming, Qiao Ze clicked on the manuscript that had already been edited.
This was his modification of the existing standard model of particles, which he named the quantum implication model.
In this model, the most basic particles are named implicators by Qiao Ze.
That is to say, under this theoretical framework, implicants are the basic units that constitute matter, and are divided into positive implicants and negative implicants.
The Higgs mechanism cannot explain the mass problem. The explanation in this model framework is that the mass comes from the rotation and vibration mode of the implicator. In other words, under certain rotation and vibration modes, these particles will be given mass.
The interaction between positive and negative implicants results in electric charge, which, unlike traditional color charges, manifests itself as different rotational and vibrational states.
Of course, the most important thing is that Qiao Ze directly unified the four basic forces through this model, which is the implicit force field.
Gravity is transmitted by implication gravitons, which interact with the mass implication of an object.
The electromagnetic force is transmitted by the charge implications in the electromagnetic field and interacts with the charge implications of the object. Fluctuations in the electromagnetic field manifest themselves as exchanges of charged electrons, resulting in the quantum nature of the electromagnetic force.
The weak interaction interacts with the weak charge implicant of the object through the transfer of weakly implicated implicators. Like the electromagnetic force, the weak interaction manifests itself as a transformation involving weak particles, leading to the quantum effects of the weak interaction.
The strong interaction is transmitted through the implication particles, which interact with the color charge implication particles of the object. The strong interaction manifests itself as the exchange of particles, leading to the quantum effects of the strong interaction.
The most important part is that the concept of super-implication space is proposed under this model.
In addition to three spatial dimensions and one time dimension, there are also tiny implication dimensions that explain quantum entanglement and non-locality.
At the same time, it is based on the dimensional weaving effect proposed by Qiao Ze. That is to say, the existence of implicit dimensions leads to quantum entanglement and non-locality in the microscopic world, and promotes the unification of the four fundamental forces.
At this moment, this manuscript, which has been saved in Qiao Ze's computer for two months, seems ready to be seen by everyone.
