End of June.

Rainbow University.

Hundreds of students from the C9 Alliance, led by Yang Bin, vice president of Huaqing University, came to the school gate.

The C9 League refers to the League of Nine Schools.

The Nine Universities Alliance is the top university alliance in Xia Kingdom.

The members of the alliance are Yenching University, Huaqing University, Hacheng University of Technology, Fudan University, Modu Jiaotong University, Jinling University, Zhejiang University, Xia University of Science and Technology, and Xiyu Jiaotong University.

They came to hold an academic exchange seminar with Rainbow University.

Students who can come here.

All of them are the best of the best.

This year, Rainbow University has sprung up, publishing a large number of top journal papers, and its academic scholarship is the highest in the country.

The students of the C9 Alliance are all proud of the sky.

Naturally, they don't want to live in the shadow of rainbow students forever in their college career.

This academic exchange meeting is not so much an exchange.

It's better to say "kicking the gym"!

School gates.

Tao Rui, the president of Rainbow University, and members of the student union have been waiting here.

After a greeting between the two sides.

Tao Rui took everyone to visit the campus and arrange accommodation.

The basic processes of feeling the campus atmosphere, appreciating the campus environment, and visiting the campus construction are part of the student exchange seminar.

The first day of the exchange seminar.

The C9 Alliance students didn't do anything, they just took pictures and visited the campus.

......

The next morning.

Students in the C9 League, after being triaged.

They went to various colleges of Rainbow University for academic exchanges.

The multimedia classrooms of major faculties have all become PK sites for rainbow students and C9 alliance students.

Some students who did not have classes in the morning came to the scene to enjoy the wonderful duel between the two sides.

Faculty of Mathematics.

Multimedia classrooms.

Wei Dongyi, a doctoral student at Yenching University, was talking on stage.

On the big screen at the scene, his paper - "The Exact Number of Positive Solutions to a General Nonlinear One-Dimensional Mean Curvature Equation" was displayed.

With Wei Dongyi's continuous explanation.

The rainbow students and math professors in the audience all nodded frequently.

They had heard of Wei Dongyi's name before.

Wei Dongyi High School won two consecutive gold medals in the World Mathematics Olympiad with a perfect score and was sent to Yenching University.

In math circles.

Wei Dongyi can be called a top scholar, and the outside world even calls him Chen Jinrun's successor.

A moment later.

Wei Dongyi ended his speech and received unanimous applause from the students.

Next.

Other students of the C9 Alliance took the stage one after another.

They were highly accomplished in the field of mathematics and received applause from everyone present.

A moment later.

Liu Le, a sophomore at the host Rainbow University, stepped onto the high platform.

He said indifferently: "I prepared a paper, and I originally wanted to submit it to a top journal, but I took advantage of this exchange seminar, so I made a fool of myself." "

After saying 950, Liu Le put the U into the USB port and read the paper.

The title of the paper is "Proof of the Sufficiency of the Two Core Conjectures of Kellerian Geometry"!

See this title.

The scene was in an uproar.

Both the C9 Alliance students and the professors were all surprised.

In the field of mathematical partial differential equations and complex geometry.

A Keller manifold is a manifold of a unitary structure that satisfies the integrability condition.

It is a Riemannian manifold, a complex manifold and a symplectic manifold.

These three structures are compatible in pairs.

The existence of a constant scalar curvature measure on Kellerian manifolds has been one of the central problems in geometry over the past 60 years.

Regarding its existence, there are three well-known conjectures – the stability conjecture, the mandatory conjecture, and the geodesic stability conjecture.

The stability conjecture, also known as Qiu Chentong's conjecture, was solved by mathematicians in Xia in 2014.

Three conjectures.

The mandatory conjecture and the geodetic stability conjecture have not yet been resolved.

And now......

Liu Le, a rainbow student, said that he wanted to prove the two core conjectures of Keller's geometry.

How incredible is that?

On a high platform.

While operating the PPT, Liu Le introduced: "As we all know, finding a solution to a class of fourth-order completely nonlinear elliptic equations can prove the existence of a constant scalar curvature metric.

My idea is to prove the existence of such equation solutions under the assumption of K-energy mandatory or geodesic stability.

At the same time, I also generalized the classical theorem of the ring-symmetric Keller manifold surface to the high dimension.

Next, please take a look at my specific steps to solve the problem......"

With Liu Le's narration.

Hundreds of pages of formulas on a large screen.

There are thousands of formulas.

The math professor who was present listened carefully and verified it in his notebook.

However, it takes a lot of time to argue this paper.

They could only give up their arguments for the time being, and chose to match Liu Le's speed of explanation.

There are many places in the middle of the paper that they don't understand.

But on the whole.

There are no logical errors in the paper.

......

Time passes slowly.

On the big screen, a series of formula lemmas emerged.

Liu Le said loudly: "The above formula can be proved, Keller's geometric mandatory conjecture and geodesic stability conjecture are valid!"

The scene was silent at first.

Then a tsunami of cheers erupted.

All the teachers and students in the lecture hall stood up and applauded for a long time.

The two core conjectures of Keller's geometry were proven.

At the same time, Liu Le also solved several well-known problems related to the constant scalar curvature metric and the Calabi extreme metric on Keller's manifold. (CDAG) starts today.

Liu Le will shock the entire mathematical community!

As for this math exchange seminar.

There is no suspense at the moment!

......

The other side.

Faculty of Physics.

Multimedia classrooms.

Yang Shuai, a sophomore at Rainbow University, talked eloquently on stage.

His paper is titled "The Birth of Superconductors at Room Temperature!"

Yang Shuai said slowly: "Superconductors, also known as superconducting materials, are designed to be conductors with zero resistance at a certain temperature.

Superconductors were first discovered in 1911 by Dutch scientist Heekonnes.

Superconductors have three properties, which are complete electrical conductivity, complete diamagnetism, and flux quantization.

Full conductivity means that superconducting materials have zero resistance, which allows for zero energy loss in the field of power transmission.

Complete diamagnetism refers to the use of the diamagnetism of superconducting materials, placing superconducting materials on top of magnets, and repulsive forces can be generated between the magnets and superconductors.

Flux quantization refers to the fact that when the insulation layer between two superconductors is as thin as an atom, electrons can pass through the insulation layer to produce superconducting DC currents and superconducting AC currents.

It's a pity...... At present, the technology has not developed superconductors at room temperature, and the advantages of superconductors cannot be maximized. "

The voice fell.

The C9 Alliance students present nodded slightly.

In the current physics world, low-temperature superconductivity and high-temperature superconductivity have been realized.

It can be superconductive at room temperature.

Scientists, there is still not much clue.

Not an exaggeration.

Room-temperature superconductivity is the ultimate dream of scientists.

Until now.

There are already 10 scientists who have won the Nobel Prize for their research in the field of superconductivity.

On a high platform.

Yang Shuai said: "In March this year, I published an academic paper called "Magic Angle Graphene" in the natural journal Nature.

In the paper, after stacking at a very specific magic angle, the twisted double-layer graphene can exhibit strong superconductivity at low temperatures.

At that time, the industry said that the magic angle graphene I discovered opened up a new field of condensed matter physics and distortion electronics.

since.

I'm always trying to superimpose more magic horn graphene, three layers of magic angle graphene, four layers of magic angle graphene...... Eight-layer magic horn graphene, nine-layer magic horn graphene, ten layers of magic horn graphene......

The study found.

The more graphene layers are superimposed, the higher the temperature required to achieve low-temperature superconductivity.

After this conclusion was reached.

I began to frantically superimpose graphene layers and, with the help of a supercomputer, figure out the best angle for the distortion. (If you read a violent novel, go to Feilu Novel Network!)

Finally, when the magic horn graphene is superimposed to 1028 layers, it can achieve superconductivity at room temperature at 15 degrees Celsius.

Next, take a look at my experimental data......"

With Yang Shuai's narration.

Everyone present was stunned.

A true superconductor at room temperature![]

Yang Shuai has conquered the field of room temperature superconductivity that countless scientists dream of!

It is important to know that superconductors have a wide range of applications.

The complete conductivity of superconductors can be used to use superconducting transmission cables, superconducting transformers, and superconducting generators.

At present, about 15% of the electric energy is lost on the transmission line when charging with copper or aluminum wires in China.

In Xia alone, the annual power consumption reaches more than 100 billion kWh.

If it is changed to superconducting power transmission.

The electricity saved is equivalent to the construction of dozens of large power plants.

Using the diamagnetism of superconducting materials, high-speed superconducting maglev trains and fully superconducting tokamak nuclear fusion test devices can be fabricated.

Using the flux quantum of superconducting materials, it can replace semiconductor materials to develop superconducting quantum chips and produce room-temperature quantum computers.

In addition, superconducting materials can be used to develop higher-resolution nuclear magnetic resonance devices, memory alloys, superconductor transistors, biochemical magnets, superconducting electromagnetic motor boats, etc., which are extremely widely used.

Not an exaggeration.

Yang Shuai conquered ultra-temperature superconductors.

100% Nobel Prize in Physics in the future!

As for today's academic exchanges, there is no suspense!

......

The other side.

Faculty of Chemistry.

Multimedia classrooms.

Zhang Shi, a sophomore at Rainbow University, said eloquently: "As we all know, lithium-ion batteries are the current mainstream and are widely used in many fields.

However, lithium-ion batteries have problems such as low temperature resistance, poor stability, and environmental pollution of waste batteries.

With the development of new energy vehicles and other industries, higher requirements have been put forward for the charging speed of batteries and the ability to store power.

Research institutes are looking to develop a new battery to replace traditional lithium-ion batteries.

In recent years, graphene batteries, nuclear waste batteries, new nano batteries, solid-state lithium metal batteries and other remarkable achievements have come out......"

Hear this.

Everyone present nodded.

Now there are more and more new energy vehicles on the streets and alleys.

Among the major new energy vehicle brands.

Rainbow Tram, you can go to the Rainbow Battery Swap Station to swap batteries.

Ordinary brand trams need to be charged slowly or quickly, which is a waste of time.

But I have to admit it.

The era of new energy trams has come!

On a high platform.

Zhang Shi said: "Recently, I have developed a new type of polymeric battery in the laboratory.

The new polymeric battery can be charged up to 10 times faster than traditional lithium-ion batteries, taking only a few seconds to recharge.

This breakthrough in the new battery is based on the use of redox nitro-containing polymers as electrochemical energy storage materials.

Ordinary nitro-based polymers have the advantage of fast charging and discharging speed, but the insufficient conductivity makes it difficult to achieve commercial application.

In the field of metal polymers, I use the complex of nickel-selenium polymer and Salen body as the backbone of the new compound.

In terms of stability and efficiency.

This type of battery is safer and does not pose a risk of burning or exploding.

At the same time, it can also effectively reduce the pollution to the environment.

Next, take a look at my experimental data......"

Hear here.

Everyone present was amazed.

Zhang Shi's scientific research paper is a Nobel Prize-level achievement in chemistry.

After the advent of this new type of polymeric battery

It is bound to subvert the existing lithium-ion battery pattern and accelerate the development of the field of new energy vehicles!

Not an exaggeration.

The emergence of a new type of polymeric battery is a milestone achievement in the field of chemistry.

......

The other side.

Faculty of Computer Science.

Multimedia classrooms.

Wu Yuan, a sophomore at Rainbow University, stepped onto the high platform.

He put the U into the USB port, and the title of the paper appeared on the big screen.

《MIP*RE》!

Wu Yuan said slowly: "Albert Einstein famously said that quantum mechanics should allow two objects to instantly affect each other's behavior at a great distance, which he called ghostly transcendence, that is, quantum entanglement.

Decades after his death, experiments proved quantum entanglement.

But to this day, it is unclear to what extent nature allows for coordination between objects at great distances.

Today, I'm going to use pure mathematics and algorithmic connections to prove that MIP*RE!

The classical verification interacts with multiple quantum theoretical verifications to determine the language class MIP, which is equivalent to the recursive enumerable language class RE. "

After speaking, he began to explain his 240-page PPT.

The multimedia classroom is very quiet.

Only Wu Yuan's voice was left echoing.

The students looked intently at the papers on the big screen, with expressions of sudden realization on their faces from time to time.

On a high platform.

Wu Yuan kept explaining PPT.

Formulas appear on the screen.

Time passes slowly.

— hours.

Two hours......

In the end, when Wu Yuan proved that MIP*RE was established, the scene was boiling.

The professors present all had incredible expressions on their faces.

MIP*RE was founded!

From the perspective of von Neumann's algebra theory, Wu Yuan refuted the embedding conjecture theory of French Fields Medal winner Connes, and solved many related problems in pure mathematics, quantum mechanics and computer science, a branch known as "complexity theory".

Connes embedded conjecture theory is the central conjecture of operator algebra theory in the 70s of the last century.

The question is whether infinite matrices can be approximated by finite matrices.

This conjecture has been around for more than 40 years.

Mathematicians want this conjecture to be correct.

Because the conjecture is correct, it can be proved that many other mathematical tools are also correct.

Now Wu Yuan's paper shows.

Connes embedded conjecture is wrong!

The math tools that the industry thinks are also wrong!

At this moment.

The C9 Alliance students present all had mixed tastes.

Wu Yuan proved that MIP*RE means that a quantum computer that uses quantum logic to calculate can theoretically verify the answers to a large number of problems.

In other words, the MIP*RE multi-party interactive proof, coupled with the computational power of quantum entanglement, provides an idea for the Turing shutdown problem.

The two machines are entangled with each other and validate each other, which can be used to solve the Turing downtime problem.

A proof in computer science has had a profound impact on the quantum physics community and mathematicians.

Not surprisingly.

Wu Yuan's paper will soon become a sensation in the academic world.

......

At the same time.

Academic exchange seminars are being held in all faculties of Rainbow University.

One after another, world-renowned papers appeared.

The students of the C9 Alliance were all crushed by the Rainbow Students.

At this moment, they fell into a deep shock and a deep autism.

The C9 Alliance is the face of the Xia education community.

Every student is the champion of each province or the gold medalist of the Olympiad.

But when they face the rainbow students.

Only then did they truly realize how terrifying the other party really was!

Not to mention the students of the C9 League.

Even if a professor from the C9 League plays, I'm afraid he will lose a lot.

Many students even cursed in their hearts.

An ordinary academic exchange seminar.

Rainbow student, take out a Nobel Prize-level paper.

They're still playing!.

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