Affected by this news, IBM's stock price fell immediately after the US stock market opened that day, falling by nearly 17% in one breath, because countless investors believed that IBM would not be able to gain a competitive advantage in quantum computers.

IBM was so frightened that after confirming the authenticity of the news about "Lime Superconducting Material No. 2", it immediately announced that it would stop its high fault-tolerant research project on quantum communication and instead actively seek research and development of "Ling Lime Superconducting Material No. 2".

Purchase patent rights and make a statement:

"I would like to thank Academician Qin Ke, Academician Ning Qingjun and all the researchers at Qingning Technology Quantum Computing Laboratory from Xia Guo for eliminating a major difficulty in the development of quantum chips. In the future, IBM will continue to focus on the research and development of quantum chips and

I am very happy to reach a patent cooperation agreement with Qing Ning Technology..."

In a word, if you can't beat them, you will give in decisively and join your opponent's side to become an ally.

Even IBM, which has always been strong, was trembling. After being silent for a long time, other research institutions also issued similar statements.

Until this time, no one in the entire world, except for the members of the Qingning Technology Computing Quantum Laboratory, had seen the appearance of the "Qingning Superconducting Material No. 2".

This is evident from the high prestige and huge influence that Qin Ke and Ning Qingyun had in the international scientific research community at this time.

…

As for Qin Ke and Ning Qingjun, who were the instigators of the incident, their phones were also flooded with calls, including Uncle Yang, Uncle Chen, the leaders of Qingmu University, as well as domestic experts, academicians, and gods in the field of quantum computing.

Everyone comes to determine whether the "Ling Ning Superconducting Material No. 2" is real, whether the indicators are really as incredible as mentioned in the patent application, and whether the cost is really so cheap...

In fact, Qin Ke and Ning Qingyun got the latest experimental reports written by Harold, Ling Shaotang and others when they were in Yuanzhou. The samples this time were re-run many times based on the experimental optimization requirements they fed back when they were in Eagle Country.

The optimal results obtained after the experiment finally reached the original experimental goals in various performance indicators.

After analysis, Qin Ke and Ning Qingjun believed that the "Ling Ning Superconducting No. 2 Material" prepared in this last experiment should be the optimal solution between cost and efficiency in today's era, and it is the best that can be industrially produced.

The Majorana fermion carrier allowed Lime Technology to go through the patent application process first.

As for the sample of the "Ling Ning Superconducting Material No. 2" from the Qing Ning Technology Quantum Computing Laboratory, they saw and inspected it immediately after returning to the capital. Unexpectedly, just after the celebration banquet, the patent application management department came to the

Information on "Ling Ning Superconducting Material No. 2" has been published.

——This is also the reason why Qingning Technology has now opened a green express channel for all patent application processes, and it takes less than five days from application to publicity.

It's just that Qin Ke didn't expect the media to pay such close attention. He discovered it early before the Qingning Technology Quantum Computing Laboratory officially announced the news.

Fortunately, Qin Ke and his wife, who were accustomed to being "bombarded by phone calls" from all walks of life, quickly turned on the automatic answering mode of Shimmer, logged into the scarf together, and published a new scarf:

"I originally wanted to make an announcement, but I didn't expect that many friends on the Internet have paid attention to the existence of 'Ling Ning Superconducting Material No. 2' and expressed curiosity about its existence. Let me explain it here. First of all, I would like to thank you all for your support of our team's research results.

Due to the concern, our team has actually been continuously researching the 'Ling Ning Superconducting No. 2 Material' and optimizing and improving the 'Ling Ning Topological Superconducting Vortex State Theoretical Model System' in the past two years."

"It's just that the road to scientific research is easier said than done, and it's extremely difficult to make further progress. We also use mathematical analysis and modeling to continuously invest huge manpower and material resources in research and development - the monthly research and development expenses are about 40 million to 40 million.

50 million - it took nearly two years to finally research and prepare this latest 'Lime Superconducting No. 2 Material'."

“Without further ado, let’s go straight to the picture. The following is the true appearance of ‘Lime Superconducting Material No. 2’ and screenshots of its various experimental indicators under laboratory conditions. There are nine pictures in total, which fit into a nine-square grid. [Pictures

1.jpg][Picture 2.jpg]……”

"Currently, the patent related to 'Ling Ning Superconducting Material No. 2' has reached the publicity stage. If you are interested in patent cooperation, or want to apply for a patent for its use, please contact Qing Ning Technology directly. We are not responsible for this business matter.

We will intervene and ask questions, but we don’t have the ability in this area, and we don’t have so much time and energy.”

"I am very happy to make a certain contribution to the development of quantum computers in the world. These achievements are inseparable from the care and guidance of the superior departments, not to mention the hard work and sweat of every member of our team."

"The paper titled "Theoretical Principles of Superconducting Materials Using Composite Graphene Multidimensional Nanoribbons as the Core to Realize High Fault-Tolerant Communication of Millions of Qubits" is basically half-written. It will probably be uploaded to arXiv next week and submitted to "

"Nature Physics" or other journals, so stay tuned."

"For the research on topological quantum computing, we have basically achieved the initial goal here. Next, our team has two research and development directions. One is naturally to continue to study the better and cheaper 'Ling Ning Superconducting Material No. 3', and

In this process, we continue to improve and optimize the "Ling Ning Topological Superconducting Vortex State Theoretical Model System", and finally achieve fidelity and fault tolerance of 99.9999%, quantum computing of tens of millions or even hundreds of millions of qubits."

"The second research and development direction is quantum chip materials. The goal is to develop quantum chip materials that are more economical and stable, support the stimulation of more quanta, and realize more qubit calculations."

"Both of these research and development goals require more time and effort. It is conservatively estimated to be more than five years. If there are no big results, we will not release the news to avoid taking up everyone's precious time."

This chapter is not finished yet, please click on the next page to continue reading the exciting content! "By the way, everyone still needs to save more food, water and electricity, although the 'El Niño Disaster Prevention and Response Command Center' where we are located - oh yes

Now it has been renamed as the "Xiaguo Extreme Climate Disaster Response Command Center" - we will continue to go all out to do disaster prevention and response work, try our best to reduce the inconvenience caused by extreme climate disasters to everyone's life and work, and alleviate the social

There will be economic losses, but the summers and winters of the next three years will indeed be difficult, so please be mentally prepared."

"Finally, thank you all for your attention and support. I wish you all a happy life, happiness and health!"

"Qin Ke, Ning Qingyun, November 3, 20XX"

With the terrifying influence of Qin Ke and his wife, who have exceeded 300 million followers at this time, ten minutes after they distributed the scarves, the entire scarf server became laggy, and countless netizens flocked to the scarf after hearing the news.

Like, retweet and comment.

[Academician Qin gave out a scarf, so I guessed something big was going to happen. As expected, he was far ahead again this time. Should foreign research institutes panic? [Gotou.jpg]]

[I’m already panicking. Didn’t I see that IBM has posted a notice on their website, suspending the research plan on quantum fault tolerance, and instead seeking patent technology authorization from Qinglin Technology Quantum Computing Laboratory? Please allow me to laugh out loud!

Hahaha--!】

[If we burn 50 million every month, didn’t we burn 1.2 billion in those two years? It’s so horrifying! It’s true that top scientific research really burns money!]

[It’s awesome to be able to do something with 1.2 billion, don’t you see, IBM and Google have spent billions and yet they haven’t come up with such dazzling results! They still spent US dollars in research funds!]

[Academician Qin actually said that it takes up our time? No, no, no, our time is not precious at all. We are not happy if others take up our time. But I am very happy to see the news about scarves that you two posted. Please be sure to send more scarves. What kind of research

We can report any movement or noise, we don’t have to wait for every big event to scare us.】

[Support the point of view above. I did the math. You can type at least a hundred words in one minute. Academician Qin, you can just spare one minute every week to distribute scarves. We love to see it! Even if you share the little things in life,

Okay! We really like you two and hope you won’t be disrespectful (Shiba Inu funny expression.jpg)]

[The guy upstairs dares to tell Academician Qin that he “doesn’t know how to commend himself”? But since you have such a life-saving emoji, we’ll give you a big thumbs up!]

[This is another research result that is incomprehensible, but in any case, it can be seen that it is a very impressive research result, the kind of research result that is awesome, right? 】

[I was completely confused when I saw those pictures, and I didn’t understand the title of the paper at all... Forget it, the world of academic gods is not accessible to us mortals, let’s just take a look and worship by the way, and we won’t say anything.

.]

[Academician Qin’s research is still of such a long range, and now the entire Internet is discussing their predictions about climate direction. With a “swish”, they have come up with quantum topological superconducting materials, which is always surprising!

】

[I won’t say much more, it’s just one sentence anyway - Academician Qin and Academician Ning are unparalleled in the world and a national treasure!]

…

The Internet is buzzing with activity, and requests for interviews from the media are flying in like a snowflake. Even CC1 wants to do a special interview column for them.

Qin Ke turned down all requests for help from the school. Now, neither he nor the "Ling Ning Superconducting Material No. 2" needed to increase their popularity through media exposure. He just wanted to quietly do the scientific research he loved.

In the garden villa area, at night, Ning Qingyun, Qin Xiaoke, and Academician Tian Jianlan were trying to feed the two babies complementary food, with the confinement sister-in-law guiding them.

The six-month-old baby can already turn over on his own, especially his sister Xiaoxiao, who has a strong language talent and likes to use "baby talk" to communicate with others. She opens and closes her mouth and makes babbling sounds, which is very cute.

When she smiles, her two baby teeth will appear. I estimate that in a month or two, my sister will call her mom or dad.

And the younger brother Zhengzheng is still a quiet and beautiful man, he doesn't like to talk, he just observes other people's expressions with his big bright eyes. Sometimes when others speak, he will nod as if he understands, which is so cute that people's hearts melt.

Anyway, Qin Xiaoke, who was an aunt, loved the two babies very much. After being separated for nearly a month in October, she almost couldn't bear to separate the two babies after seeing them again. As long as she came back from school,

Will definitely stay with my two little babies.

Listening to the lively sounds of coaxing children over there, Qin Ke, Edward Witten and Mr. Qiu sitting in the living room and tea room couldn't help but look at each other and smile. But Professor Tao didn't show up this morning (it was morning time in the United States).

Classes were held and video conferences were also held.

After everyone chatted about Qin Ke's affairs abroad, they returned to the topic.

The so-called main topic is naturally a research topic that several people collaborate on - "Application of string theory to control the "random events of decay" of radioactive elements."

These days, Qin Ke and Ning Qingyun are out of the country or staying in Yuanzhou. The main focus on this topic has become Professor Witten and Professor Tao who are far away in the United States. Qin Ke only spares an hour every day to participate in remote video conferences.

Fortunately, this physics topic has been transformed into a mathematical geometry and probability theory problem by the four of them, and then each of them worked separately to tackle each detailed problem.

As we all know, as far as current mathematical theory is concerned, probability is random and uncontrollable. That is, it is almost impossible to accurately make a certain random situation appear or not occur, but the occurrence of probability also requires conditions.

The corresponding probability will only appear when the conditions are met.

Just like tossing a coin on a level ground, there will only be three probabilities of heads, tails, and uprights after landing. However, if the ground is uneven, there will be a probability of tilting. If the height from the ground is lower,

, also pay attention to the angle when tossing a coin, then the probability of a certain situation will greatly increase, and the probability of a certain situation will plummet.

This chapter is not over yet, please click on the next page to continue reading! What Qin Ke and his colleagues want to do with this project is to find "conditions" through the application of string theory, so that the probability of radioactive elements decaying will be greatly reduced, and the probability of radioactive elements decaying will not occur.

The probability is greatly increased.

As long as the probability of no decay phenomenon is close to infinity, radioactive elements can be considered safe and the radioactive hazards caused by them are almost non-existent.

String theory sounds very simple. It just replaces infinitesimal particles with tiny vibrating string loops to explain the world. However, the more seemingly simple the theory is, the more complicated it actually is. Even the great masters in the direction of string theory proposed M

Theorist Edward Witten also failed to give a strict and accurate definition of M theory in mathematical language.

What is certain now is that the core of string theory is multi-dimensional space. The ultimate goal of M theory is to use a law to describe all known forces. To achieve this, we must work on basic mathematics and even the unification of mathematics.

Make a breakthrough.

At present, the mathematical core of this subject is geometry, but sub-disciplines such as algebra, number theory, and probability theory are also very important. The work of several people also has a certain concept of "mathematical unification" in it.

The framework of the entire project was proposed by Qin Ke and was improved by the other three people. There was no clear boundary between each person's division of labor.

In summary, Qin Ke is mainly responsible for geometry, including Euclidean geometry, Roche geometry, Riemannian geometry, algebraic geometry, etc. In addition, there are also sub-disciplines or related topics such as topology, complex functions, Lie groups, differential equations, chaos theory, etc.
To be continued...