Scholar’s Advanced Technological System

What would happen if electrical energy did not decay during transmission

Xiao Ai: [So perfunctory! QAQ]

Sure enough, as he speculated, by observing various behaviors of players in the virtual reality world, the accumulation of progress bars can be accelerated. In other words, in fact, the experience required by the branch of artificial intelligence is actually a kind of sociological experience

Lu Zhou sighed in his heart, ignored it, closed his eyes and entered the system space.

At the same time he pressed the button, the preset program completed running on this film. The signal processed and output by the logic circuit is transmitted to the display screen, and a line of clear characters is quickly displayed on the display screen -

What if a computer had exponential speed and perfect accuracy

But for a long time, although people are accustomed to applying topology to solve problems in the macroscopic world, they have been at a loss as to whether topology can be used to deal with subatomic particles such as electrons and photons.

Lu Zhou: "..."

As if he was contemplating a perfect work of art, a heartfelt smile appeared on his face.

"...Sure enough, Majorana fermions are the perfect choice for building quantum computers!"

Jinling Institute for Advanced Study, laboratory on the third underground floor.

[…]

Regarding this question, Professor Duncan Haldane once gave a standard answer. And in the fall of 2016, the physicist and two other colleagues won this year's Nobel Prize in Physics for "the discovery of topological phase transitions and topological phases of matter"!

If you want to solve the problem, you need to either reduce noise, anti-interference, or both together. No matter which technical route is taken, subatomic particles must be stabilized.

As we all know, mathematicians often look at problems differently from ordinary people. They are often used to seeing the essence through phenomena. Topology is such a subject. It studies the properties of geometric figures or spaces that remain unchanged after continuously changing their shapes.

When he saw that this "film"-like chip was running stably and that his cheers of more than 80 decibels did not cause "the collapse of the entangled state of qubits", Lu Zhou's face finally showed a heartfelt look of relief. smile.

When he saw that this "film"-like chip was running stably and that his cheers of more than 80 decibels did not cause "the collapse of the entangled state of qubits", Lu Zhou's face finally showed a heartfelt look of relief. smile.

Xiao Ai: [Master, master! Just at that moment! Something amazing happened! φ(≧ω≦*)]

Simply put, through rigorous experiments, they discovered that even the smallest-scale microscopic substances can exhibit macroscopic properties and have topological phases.

And this is also one of the core problems in the development of quantum computers.

It seems that your worries are a bit unnecessary

As its "guardian", Lu Zhou could only say that he had fulfilled his responsibilities and took it one step at a time.

This sounds a bit difficult to understand. If you want to understand it, you have to understand the concept of topology.

In particular, this property found in graphene materials directly led to the birth of SG-1 superconducting materials and carbon-based chips.

Sure enough, as he speculated, by observing various behaviors of players in the virtual reality world, the accumulation of progress bars can be accelerated. In other words, in fact, the experience required by the branch of artificial intelligence is actually a kind of sociological experience

After returning to the office chair next to him with his coffee and sitting down, Lu Zhou glanced at his watch and was thinking of something to kill the boring time when Xiao Ai controlled a drone and swung over from the side.

As we all know, mathematicians often look at problems differently from ordinary people. They are often used to seeing the essence through phenomena. Topology is such a subject. It studies the properties of geometric figures or spaces that remain unchanged after continuously changing their shapes.

After doing all this work, he finally breathed a sigh of relief and hit the Enter button on the keyboard.

"...it seems like it's almost time."

Xiao Ai: [So perfunctory! QAQ]

Xiao Ai: [So perfunctory! QAQ]

Xiao Ai: [Master, master, don’t you praise Xiao Ai? (*/ω\*)]

At the moment of upgrading, even if you have not entered the system space, you can still see the dialog box prompt...

Xiao Ai: [Eh? Do you know everything? ! Σ(°△°|||)︴]

A classic example is that to a topologist, a donut and a coffee cup both look the same because they both have a hole.

This can be regarded as a manifestation of the saying "knowledge is power".

"Xiao Ai, turn on the in-situ freeze dryer."

Because there is only one hole, you can transform the donut into a coffee cup through a smooth deformation process, and vice versa... Even though this may seem a little difficult to understand or even inexplicable to ordinary people, in fact because of this A mathematical method, scholars in other fields have discovered a lot of interesting things.

As its "guardian", Lu Zhou could only say that he had fulfilled his responsibilities and took it one step at a time.

As we all know, mathematicians often look at problems differently from ordinary people. They are often used to seeing the essence through phenomena. Topology is such a subject. It studies the properties of geometric figures or spaces that remain unchanged after continuously changing their shapes.

In this special topological phase material, subatoms can be protected.

"...it seems like it's almost time."

It seems that your worries are a bit unnecessary

Especially in the fields of physics and materials, many amazing discoveries in the 1980s were derived from topological methods, which provided a theoretical basis.

Maybe its existence will give birth to a brand new species

Although extremely reluctant, Xiao Ai still obeyed the instructions.

The empty room that was originally used as a spare sample room is now being filled with a lot of newly purchased equipment.

But for a long time, although people are accustomed to applying topology to solve problems in the macroscopic world, they have been at a loss as to whether topology can be used to deal with subatomic particles such as electrons and photons.

If you split the problem and raise unsolved problems on the basis of those problems that have been solved by the academic community, the points consumed can be reduced by 80% or more!

Because there is only one hole, you can transform the donut into a coffee cup through a smooth deformation process, and vice versa... Even though this may seem a little difficult to understand or even inexplicable to ordinary people, in fact because of this A mathematical method, scholars in other fields have discovered a lot of interesting things.

Because they are all affected by the strange laws of quantum physics, their size, position and even shape are in an uncertain state.

"All performance tests are in line with expectations."

Especially in the fields of physics and materials, many amazing discoveries in the 1980s were derived from topological methods, which provided a theoretical basis.

"...Sure enough, Majorana fermions are the perfect choice for building quantum computers!"

[…]

When he opened his eyes, he saw that the small TV staring at the quadcopter had been shining in front of him for a long time.

This includes multi-functional physical property measurement systems, step meters, vibrating sample magnetometers, high and low temperature magnetoresistance testers, and in-situ freeze dryers, etc. Although it is not a luxurious lineup, it can be said that it is a small but sparrow. Everything is complete.

However, the problem is that the subatomic particles that store data are very fragile. Unlike stable atoms, even slight disturbances may change its state.

A classic example is that to a topologist, a donut and a coffee cup both look the same because they both have a hole.

However, the 2016 Nobel Prize in Physics gave a positive answer to this proposition.

At the same time he pressed the button, the preset program completed running on this film. The signal processed and output by the logic circuit is transmitted to the display screen, and a line of clear characters is quickly displayed on the display screen -

So far, he has spent 20,000 points to overcome several key bottlenecks in research, and the rest is based on his knowledge of carbon materials, Mott insulators, and Majorana fermions. , by consulting some previous research results and completing some promotional work on this basis.

"...it seems like it's almost time."

As if to confirm his words, the signal light on the instrument not far away jumped from green to red.

Even the subatoms in these microscopic worlds conform to topological properties!

It is also a topic that Lu Zhou has been studying these days...

However, the 2016 Nobel Prize in Physics gave a positive answer to this proposition.

But for a long time, although people are accustomed to applying topology to solve problems in the macroscopic world, they have been at a loss as to whether topology can be used to deal with subatomic particles such as electrons and photons.

However, the 2016 Nobel Prize in Physics gave a positive answer to this proposition.

Xiao Ai: [So perfunctory! QAQ]

He now has more than 30,000 points. According to the price offered by the system, he needs 120,000 points to redeem a full set of quantum computer technology.

When he saw that this "film"-like chip was running stably and that his cheers of more than 80 decibels did not cause "the collapse of the entangled state of qubits", Lu Zhou's face finally showed a heartfelt look of relief. smile.

This theory obviously has no impact on daily life, but for the field of electronic engineering, it does open the door to a new world!

As its "guardian", Lu Zhou could only say that he had fulfilled his responsibilities and took it one step at a time.

When he opened his eyes, he saw that the small TV staring at the quadcopter had been shining in front of him for a long time.

"...Sure enough, Majorana fermions are the perfect choice for building quantum computers!"

Focusing on the air half a meter in front of the small TV, Lu Zhou raised his eyelids and said with some surprise.

According to the principle of quantum computers, information is stored in something called a quantum bit (qubit) mainly through the property that subatomic particles can be in different states at the same time. It is precisely because of this characteristic that quantum computers can solve problems exponentially faster than traditional computers.

However, Lu Zhou didn't pay much attention to Xiao Ai now. After entering the system space, he just took a look at his attribute panel and the progress bar of branch technologies, and then turned his consciousness back to the real world.

In the wonderful quantum world, these properties show amazing stability and some remarkable characteristics in a special stage of matter. The most typical example is topological insulators.

For example, a topological insulator carbon material containing Majorana fermions is superimposed on top of a single-atom-width superconductor layer without affecting the stability of Majorana fermions.

Branch technology serves as a branch of system tasks, and the accumulation of experience in artificial intelligence and informatics experience are synchronized. The moment Xiao Ai's level was raised to LV4, his informatics level was also raised from LV4 to LV5.

Lu Zhou: "..."

It seems that this time...

At the same time, this property also promotes the research of quantum computing.

Lu Zhou couldn't tell whether this was a good thing or not.

In other words, the qubits formed under this topological phase will not change due to some small or local interference. It is far more stable than ordinary qubits and allows our quantum computing to process the answers we want in a more precise and efficient way.

In particular, this property found in graphene materials directly led to the birth of SG-1 superconducting materials and carbon-based chips.

Lu Zhou couldn't tell whether this was a good thing or not.

Lu Zhou: "..."

It is also a topic that Lu Zhou has been studying these days...

In the wonderful quantum world, these properties show amazing stability and some remarkable characteristics in a special stage of matter. The most typical example is topological insulators.

At the same time, this property also promotes the research of quantum computing.

Xiao Ai: [Eh? Do you know everything? ! Σ(°△°|||)︴]

Maybe its existence will give birth to a brand new species

According to the principle of quantum computers, information is stored in something called a quantum bit (qubit) mainly through the property that subatomic particles can be in different states at the same time. It is precisely because of this characteristic that quantum computers can solve problems exponentially faster than traditional computers.

Looking at the jumping characters on the screen, Lu Zhou felt suddenly happy. He clenched his fists tightly and almost jumped up with excitement.

"...Sure enough, Majorana fermions are the perfect choice for building quantum computers!"

Xiao Ai: [Master, master, don’t you praise Xiao Ai? (*/ω\*)]

Xiao Ai: [So perfunctory! QAQ]

This includes multi-functional physical property measurement systems, step meters, vibrating sample magnetometers, high and low temperature magnetoresistance testers, and in-situ freeze dryers, etc. Although it is not a luxurious lineup, it can be said that it is a small but sparrow. Everything is complete.

Jinling Institute for Advanced Study, laboratory on the third underground floor.

After doing all this work, he finally breathed a sigh of relief and hit the Enter button on the keyboard.

However, the problem is that the subatomic particles that store data are very fragile. Unlike stable atoms, even slight disturbances may change its state.

It seems that this time...

It seems that this time...

Pretending not to see the dialog box on the small TV, Lu Zhou looked down at the time on his watch and muttered to himself.

Focusing on the air half a meter in front of the small TV, Lu Zhou raised his eyelids and said with some surprise.

After carefully placing a thumb-sized film into the magnetron sputtering atomic layer deposition equipment, Lu Zhou carefully compared the data on the experimental form and set new experimental parameters on the computer.

This is the so-called "decoherence" in quantum mechanics - any environmental influence may cause the collapse of the entangled state of the qubit!

Regarding this question, Professor Duncan Haldane once gave a standard answer. And in the fall of 2016, the physicist and two other colleagues won this year's Nobel Prize in Physics for "the discovery of topological phase transitions and topological phases of matter"!

A classic example is that to a topologist, a donut and a coffee cup both look the same because they both have a hole.

[…]

"...it seems like it's almost time."

Subconsciously, he shouted out the excitement in his heart. As a result, Lu Zhou was startled by his behavior and hurriedly checked the operating status of the equipment.

However, in fact, this valuation actually contains a lot of water.

At the moment of upgrading, even if you have not entered the system space, you can still see the dialog box prompt...

"...it seems like it's almost time."

If you want to solve the problem, you need to either reduce noise, anti-interference, or both together. No matter which technical route is taken, subatomic particles must be stabilized.

“The presentation is impeccable, perfect!”

If you split the problem and raise unsolved problems on the basis of those problems that have been solved by the academic community, the points consumed can be reduced by 80% or more!

And this is also one of the core problems in the development of quantum computers.

In the final analysis, the way artificial intelligence processes information is completely different from that of the human brain. One is where logic determines emotions, while the other is where emotions dominate logic.

When he opened his eyes, he saw that the small TV staring at the quadcopter had been shining in front of him for a long time.

After carefully completing the last step of all experimental work, Lu Zhou placed a thin layer of translucent graphene sheets on the prepared circuit mold.

According to the principle of quantum computers, information is stored in something called a quantum bit (qubit) mainly through the property that subatomic particles can be in different states at the same time. It is precisely because of this characteristic that quantum computers can solve problems exponentially faster than traditional computers.

What if a computer had exponential speed and perfect accuracy

Looking at the jumping characters on the screen, Lu Zhou felt suddenly happy. He clenched his fists tightly and almost jumped up with excitement.

In particular, this property found in graphene materials directly led to the birth of SG-1 superconducting materials and carbon-based chips.

It is also a topic that Lu Zhou has been studying these days...

Although extremely reluctant, Xiao Ai still obeyed the instructions.

Looking at the jumping characters on the screen, Lu Zhou felt suddenly happy. He clenched his fists tightly and almost jumped up with excitement.

What would happen if electrical energy did not decay during transmission

Jinling Institute for Advanced Study, laboratory on the third underground floor.

Even the subatoms in these microscopic worlds conform to topological properties!

After doing all this work, he finally breathed a sigh of relief and hit the Enter button on the keyboard.

Xiao Ai: [Received! (○｀3′○)]

Branch technology serves as a branch of system tasks, and the accumulation of experience in artificial intelligence and informatics experience are synchronized. The moment Xiao Ai's level was raised to LV4, his informatics level was also raised from LV4 to LV5.

Especially in the fields of physics and materials, many amazing discoveries in the 1980s were derived from topological methods, which provided a theoretical basis.

Because there is only one hole, you can transform the donut into a coffee cup through a smooth deformation process, and vice versa... Even though this may seem a little difficult to understand or even inexplicable to ordinary people, in fact because of this A mathematical method, scholars in other fields have discovered a lot of interesting things.

However, Lu Zhou didn't pay much attention to Xiao Ai now. After entering the system space, he just took a look at his attribute panel and the progress bar of branch technologies, and then turned his consciousness back to the real world.

At the same time, this property also promotes the research of quantum computing.

The empty room that was originally used as a spare sample room is now being filled with a lot of newly purchased equipment.

This theory obviously has no impact on daily life, but for the field of electronic engineering, it does open the door to a new world!

However, Lu Zhou didn't pay much attention to Xiao Ai now. After entering the system space, he just took a look at his attribute panel and the progress bar of branch technologies, and then turned his consciousness back to the real world.

Regarding this question, Professor Duncan Haldane once gave a standard answer. And in the fall of 2016, the physicist and two other colleagues won this year's Nobel Prize in Physics for "the discovery of topological phase transitions and topological phases of matter"!

At the same time, this property also promotes the research of quantum computing.

In other words, the qubits formed under this topological phase will not change due to some small or local interference. It is far more stable than ordinary qubits and allows our quantum computing to process the answers we want in a more precise and efficient way.

This includes multi-functional physical property measurement systems, step meters, vibrating sample magnetometers, high and low temperature magnetoresistance testers, and in-situ freeze dryers, etc. Although it is not a luxurious lineup, it can be said that it is a small but sparrow. Everything is complete.

[…]

[Hello World]

However, the problem is that the subatomic particles that store data are very fragile. Unlike stable atoms, even slight disturbances may change its state.

It seems that your worries are a bit unnecessary

“The presentation is impeccable, perfect!”

As if he was contemplating a perfect work of art, a heartfelt smile appeared on his face.

The empty room that was originally used as a spare sample room is now being filled with a lot of newly purchased equipment.

In addition, in addition to these indispensable equipment for studying carbon materials, there is also a light-curing 3D printer with a maximum accuracy of 8 microns, which is mainly used to print plastic molds needed for experiments.

[G. Informatics: LV5 (0/300,000)]

However, in fact, this valuation actually contains a lot of water.

In the final analysis, the way artificial intelligence processes information is completely different from that of the human brain. One is where logic determines emotions, while the other is where emotions dominate logic.

[G. Informatics: LV5 (0/300,000)]

It is precisely these tasks that give him the opportunity to use his points wisely.

However, the problem is that the subatomic particles that store data are very fragile. Unlike stable atoms, even slight disturbances may change its state.

Regarding this question, Professor Duncan Haldane once gave a standard answer. And in the fall of 2016, the physicist and two other colleagues won this year's Nobel Prize in Physics for "the discovery of topological phase transitions and topological phases of matter"!

After carefully placing a thumb-sized film into the magnetron sputtering atomic layer deposition equipment, Lu Zhou carefully compared the data on the experimental form and set new experimental parameters on the computer.

For example, a topological insulator carbon material containing Majorana fermions is superimposed on top of a single-atom-width superconductor layer without affecting the stability of Majorana fermions.

Almost instantly.

Pretending not to see the dialog box on the small TV, Lu Zhou looked down at the time on his watch and muttered to himself.

"Xiao Ai, turn on the in-situ freeze dryer."

After doing all this work, he finally breathed a sigh of relief and hit the Enter button on the keyboard.

At the same time he pressed the button, the preset program completed running on this film. The signal processed and output by the logic circuit is transmitted to the display screen, and a line of clear characters is quickly displayed on the display screen -

"Success!"

In the wonderful quantum world, these properties show amazing stability and some remarkable characteristics in a special stage of matter. The most typical example is topological insulators.

The green signal light came on and the equipment in the laboratory began to operate.

He now has more than 30,000 points. According to the price offered by the system, he needs 120,000 points to redeem a full set of quantum computer technology.

"Success!"

After pressing the power button, Lu Zhou's heart almost rose to his throat.

The green signal light came on and the equipment in the laboratory began to operate.

But for a long time, although people are accustomed to applying topology to solve problems in the macroscopic world, they have been at a loss as to whether topology can be used to deal with subatomic particles such as electrons and photons.

It seems that this time...

It is also a topic that Lu Zhou has been studying these days...

After returning to the office chair next to him with his coffee and sitting down, Lu Zhou glanced at his watch and was thinking of something to kill the boring time when Xiao Ai controlled a drone and swung over from the side.

Of course, it's too early to tell.

If you split the problem and raise unsolved problems on the basis of those problems that have been solved by the academic community, the points consumed can be reduced by 80% or more!

At the same time he pressed the button, the preset program completed running on this film. The signal processed and output by the logic circuit is transmitted to the display screen, and a line of clear characters is quickly displayed on the display screen -

The empty room that was originally used as a spare sample room is now being filled with a lot of newly purchased equipment.

It is precisely these tasks that give him the opportunity to use his points wisely.

Has this guy been upgraded or downgraded...

Xiao Ai: [Master, master! Just at that moment! Something amazing happened! φ(≧ω≦*)]

As if he was contemplating a perfect work of art, a heartfelt smile appeared on his face.

"Xiao Ai, turn on the in-situ freeze dryer."

Focusing on the air half a meter in front of the small TV, Lu Zhou raised his eyelids and said with some surprise.

After doing all this work, he finally breathed a sigh of relief and hit the Enter button on the keyboard.

A classic example is that to a topologist, a donut and a coffee cup both look the same because they both have a hole.

So far, he has spent 20,000 points to overcome several key bottlenecks in research, and the rest is based on his knowledge of carbon materials, Mott insulators, and Majorana fermions. , by consulting some previous research results and completing some promotional work on this basis.

After carefully completing the last step of all experimental work, Lu Zhou placed a thin layer of translucent graphene sheets on the prepared circuit mold.

As if he was contemplating a perfect work of art, a heartfelt smile appeared on his face.

In addition, in addition to these indispensable equipment for studying carbon materials, there is also a light-curing 3D printer with a maximum accuracy of 8 microns, which is mainly used to print plastic molds needed for experiments.

[Hello World]

Because there is only one hole, you can transform the donut into a coffee cup through a smooth deformation process, and vice versa... Even though this may seem a little difficult to understand or even inexplicable to ordinary people, in fact because of this A mathematical method, scholars in other fields have discovered a lot of interesting things.

"Have you upgraded?"

This sounds a bit difficult to understand. If you want to understand it, you have to understand the concept of topology.

Pretending not to see the dialog box on the small TV, Lu Zhou looked down at the time on his watch and muttered to himself.

Lu Zhou couldn't tell whether this was a good thing or not.

Xiao Ai: [Eh? Do you know everything? ! Σ(°△°|||)︴]

The empty room that was originally used as a spare sample room is now being filled with a lot of newly purchased equipment.

At the same time he pressed the button, the preset program completed running on this film. The signal processed and output by the logic circuit is transmitted to the display screen, and a line of clear characters is quickly displayed on the display screen -

[G. Informatics: LV5 (0/300,000)]

"...it seems like it's almost time."

Lu Zhou: "..."

In addition, in addition to these indispensable equipment for studying carbon materials, there is also a light-curing 3D printer with a maximum accuracy of 8 microns, which is mainly used to print plastic molds needed for experiments.

"...Sure enough, Majorana fermions are the perfect choice for building quantum computers!"

Jinling Institute for Advanced Study, laboratory on the third underground floor.

Subconsciously, he shouted out the excitement in his heart. As a result, Lu Zhou was startled by his behavior and hurriedly checked the operating status of the equipment.

After pressing the power button, Lu Zhou's heart almost rose to his throat.

This sounds a bit difficult to understand. If you want to understand it, you have to understand the concept of topology.

According to the principle of quantum computers, information is stored in something called a quantum bit (qubit) mainly through the property that subatomic particles can be in different states at the same time. It is precisely because of this characteristic that quantum computers can solve problems exponentially faster than traditional computers.

After returning to the office chair next to him with his coffee and sitting down, Lu Zhou glanced at his watch and was thinking of something to kill the boring time when Xiao Ai controlled a drone and swung over from the side.

Has this guy been upgraded or downgraded...

Maybe its existence will give birth to a brand new species

Upon seeing this, Lu Zhou immediately ordered.

Sure enough, as he speculated, by observing various behaviors of players in the virtual reality world, the accumulation of progress bars can be accelerated. In other words, in fact, the experience required by the branch of artificial intelligence is actually a kind of sociological experience

Lu Zhou sighed in his heart, ignored it, closed his eyes and entered the system space.

Lu Zhou couldn't tell whether this was a good thing or not.

What would happen if electrical energy did not decay during transmission

Branch technology serves as a branch of system tasks, and the accumulation of experience in artificial intelligence and informatics experience are synchronized. The moment Xiao Ai's level was raised to LV4, his informatics level was also raised from LV4 to LV5.

Looking at the jumping characters on the screen, Lu Zhou felt suddenly happy. He clenched his fists tightly and almost jumped up with excitement.

If you want to solve the problem, you need to either reduce noise, anti-interference, or both together. No matter which technical route is taken, subatomic particles must be stabilized.

It is also a topic that Lu Zhou has been studying these days...

[Hello World]

For example, a topological insulator carbon material containing Majorana fermions is superimposed on top of a single-atom-width superconductor layer without affecting the stability of Majorana fermions.

At the moment of upgrading, even if you have not entered the system space, you can still see the dialog box prompt...

As if to confirm his words, the signal light on the instrument not far away jumped from green to red.

At the moment of upgrading, even if you have not entered the system space, you can still see the dialog box prompt...

For example, a topological insulator carbon material containing Majorana fermions is superimposed on top of a single-atom-width superconductor layer without affecting the stability of Majorana fermions.

This sounds a bit difficult to understand. If you want to understand it, you have to understand the concept of topology.

However, Lu Zhou didn't pay much attention to Xiao Ai now. After entering the system space, he just took a look at his attribute panel and the progress bar of branch technologies, and then turned his consciousness back to the real world.

[…]

This sounds a bit difficult to understand. If you want to understand it, you have to understand the concept of topology.

With the help of Xiao Ai, Lu Zhou transferred the sample from the magnetron sputtering atomic layer deposition equipment to the in-situ freeze dryer, freeze-dried the carbon-based chip sample, and then used a metallographic microscope to The chip was carefully observed and the experimental data was recorded in a notebook on the side.

It seems that this time...

[…]

[…]

Of course, it's too early to tell.

After confirming the changed attribute panel, Lu Zhou touched his chin thoughtfully.

And this is also one of the core problems in the development of quantum computers.

In other words, the qubits formed under this topological phase will not change due to some small or local interference. It is far more stable than ordinary qubits and allows our quantum computing to process the answers we want in a more precise and efficient way.

Regarding this question, Professor Duncan Haldane once gave a standard answer. And in the fall of 2016, the physicist and two other colleagues won this year's Nobel Prize in Physics for "the discovery of topological phase transitions and topological phases of matter"!

After returning to the office chair next to him with his coffee and sitting down, Lu Zhou glanced at his watch and was thinking of something to kill the boring time when Xiao Ai controlled a drone and swung over from the side.

[G. Informatics: LV5 (0/300,000)]

When he opened his eyes, he saw that the small TV staring at the quadcopter had been shining in front of him for a long time.

[Hello World]

However, in fact, this valuation actually contains a lot of water.

Lu Zhou couldn't tell whether this was a good thing or not.

It is also a topic that Lu Zhou has been studying these days...

Especially in the fields of physics and materials, many amazing discoveries in the 1980s were derived from topological methods, which provided a theoretical basis.

Xiao Ai: [Received! (○｀3′○)]

After confirming the changed attribute panel, Lu Zhou touched his chin thoughtfully.

Lu Zhou sighed in his heart, ignored it, closed his eyes and entered the system space.

After returning to the office chair next to him with his coffee and sitting down, Lu Zhou glanced at his watch and was thinking of something to kill the boring time when Xiao Ai controlled a drone and swung over from the side.

Sure enough, as he speculated, by observing various behaviors of players in the virtual reality world, the accumulation of progress bars can be accelerated. In other words, in fact, the experience required by the branch of artificial intelligence is actually a kind of sociological experience

Regarding this question, Professor Duncan Haldane once gave a standard answer. And in the fall of 2016, the physicist and two other colleagues won this year's Nobel Prize in Physics for "the discovery of topological phase transitions and topological phases of matter"!

At the same time he pressed the button, the preset program completed running on this film. The signal processed and output by the logic circuit is transmitted to the display screen, and a line of clear characters is quickly displayed on the display screen -

"All performance tests are in line with expectations."

However, Lu Zhou didn't pay much attention to Xiao Ai now. After entering the system space, he just took a look at his attribute panel and the progress bar of branch technologies, and then turned his consciousness back to the real world.

Lu Zhou: "..."

Xiao Ai: [Eh? Do you know everything? ! Σ(°△°|||)︴]

But for a long time, although people are accustomed to applying topology to solve problems in the macroscopic world, they have been at a loss as to whether topology can be used to deal with subatomic particles such as electrons and photons.

Although extremely reluctant, Xiao Ai still obeyed the instructions.

Almost instantly.

When he opened his eyes, he saw that the small TV staring at the quadcopter had been shining in front of him for a long time.

However, the 2016 Nobel Prize in Physics gave a positive answer to this proposition.

After pressing the power button, Lu Zhou's heart almost rose to his throat.

For example, a topological insulator carbon material containing Majorana fermions is superimposed on top of a single-atom-width superconductor layer without affecting the stability of Majorana fermions.

For example, a topological insulator carbon material containing Majorana fermions is superimposed on top of a single-atom-width superconductor layer without affecting the stability of Majorana fermions.

So far, he has spent 20,000 points to overcome several key bottlenecks in research, and the rest is based on his knowledge of carbon materials, Mott insulators, and Majorana fermions. , by consulting some previous research results and completing some promotional work on this basis.

Because there is only one hole, you can transform the donut into a coffee cup through a smooth deformation process, and vice versa... Even though this may seem a little difficult to understand or even inexplicable to ordinary people, in fact because of this A mathematical method, scholars in other fields have discovered a lot of interesting things.

Xiao Ai: [Master, master, don’t you praise Xiao Ai? (*/ω\*)]

Has this guy been upgraded or downgraded...

I just don't know if it's his illusion, but I always feel that this little guy's reactions are becoming more and more emotional... Or in other words, more and more human-like

In other words, the qubits formed under this topological phase will not change due to some small or local interference. It is far more stable than ordinary qubits and allows our quantum computing to process the answers we want in a more precise and efficient way.

In other words, the qubits formed under this topological phase will not change due to some small or local interference. It is far more stable than ordinary qubits and allows our quantum computing to process the answers we want in a more precise and efficient way.

Even the subatoms in these microscopic worlds conform to topological properties!

After pressing the power button, Lu Zhou's heart almost rose to his throat.

What would happen if electrical energy did not decay during transmission

Lu Zhou: "Yeah, well done."

Simply put, through rigorous experiments, they discovered that even the smallest-scale microscopic substances can exhibit macroscopic properties and have topological phases.

When he opened his eyes, he saw that the small TV staring at the quadcopter had been shining in front of him for a long time.

Xiao Ai: [Master, master! Just at that moment! Something amazing happened! φ(≧ω≦*)]

When he opened his eyes, he saw that the small TV staring at the quadcopter had been shining in front of him for a long time.

At the same time he pressed the button, the preset program completed running on this film. The signal processed and output by the logic circuit is transmitted to the display screen, and a line of clear characters is quickly displayed on the display screen -

In other words, the qubits formed under this topological phase will not change due to some small or local interference. It is far more stable than ordinary qubits and allows our quantum computing to process the answers we want in a more precise and efficient way.

Xiao Ai: [So perfunctory! QAQ]

It’s really done!

In the wonderful quantum world, these properties show amazing stability and some remarkable characteristics in a special stage of matter. The most typical example is topological insulators.

As we all know, mathematicians often look at problems differently from ordinary people. They are often used to seeing the essence through phenomena. Topology is such a subject. It studies the properties of geometric figures or spaces that remain unchanged after continuously changing their shapes.

If you want to solve the problem, you need to either reduce noise, anti-interference, or both together. No matter which technical route is taken, subatomic particles must be stabilized.

This is the so-called "decoherence" in quantum mechanics - any environmental influence may cause the collapse of the entangled state of the qubit!

However, the 2016 Nobel Prize in Physics gave a positive answer to this proposition.

"...it seems like it's almost time."

Lu Zhou couldn't tell whether this was a good thing or not.

With the help of Xiao Ai, Lu Zhou transferred the sample from the magnetron sputtering atomic layer deposition equipment to the in-situ freeze dryer, freeze-dried the carbon-based chip sample, and then used a metallographic microscope to The chip was carefully observed and the experimental data was recorded in a notebook on the side.

Pretending not to see the dialog box on the small TV, Lu Zhou looked down at the time on his watch and muttered to himself.

Xiao Ai: [Received! (○｀3′○)]

"Xiao Ai, turn on the in-situ freeze dryer."

It’s really done!

“The presentation is impeccable, perfect!”

Xiao Ai: [Received! (○｀3′○)]

I just don't know if it's his illusion, but I always feel that this little guy's reactions are becoming more and more emotional... Or in other words, more and more human-like

Xiao Ai: [Received! (○｀3′○)]

In this special topological phase material, subatoms can be protected.

As if to confirm his words, the signal light on the instrument not far away jumped from green to red.

If you want to solve the problem, you need to either reduce noise, anti-interference, or both together. No matter which technical route is taken, subatomic particles must be stabilized.

All that's left is to verify whether the efforts he has made these days and the 20,000 points he has spent are worth it.

"...Sure enough, Majorana fermions are the perfect choice for building quantum computers!"

After carefully completing the last step of all experimental work, Lu Zhou placed a thin layer of translucent graphene sheets on the prepared circuit mold.

But for a long time, although people are accustomed to applying topology to solve problems in the macroscopic world, they have been at a loss as to whether topology can be used to deal with subatomic particles such as electrons and photons.

In the wonderful quantum world, these properties show amazing stability and some remarkable characteristics in a special stage of matter. The most typical example is topological insulators.

This sounds a bit difficult to understand. If you want to understand it, you have to understand the concept of topology.

Upon seeing this, Lu Zhou immediately ordered.

This includes multi-functional physical property measurement systems, step meters, vibrating sample magnetometers, high and low temperature magnetoresistance testers, and in-situ freeze dryers, etc. Although it is not a luxurious lineup, it can be said that it is a small but sparrow. Everything is complete.

Subconsciously, he shouted out the excitement in his heart. As a result, Lu Zhou was startled by his behavior and hurriedly checked the operating status of the equipment.

With the help of Xiao Ai, Lu Zhou transferred the sample from the magnetron sputtering atomic layer deposition equipment to the in-situ freeze dryer, freeze-dried the carbon-based chip sample, and then used a metallographic microscope to The chip was carefully observed and the experimental data was recorded in a notebook on the side.

Jinling Institute for Advanced Study, laboratory on the third underground floor.

For example, a topological insulator carbon material containing Majorana fermions is superimposed on top of a single-atom-width superconductor layer without affecting the stability of Majorana fermions.

"Xiao Ai, turn on the in-situ freeze dryer."

In other words, the qubits formed under this topological phase will not change due to some small or local interference. It is far more stable than ordinary qubits and allows our quantum computing to process the answers we want in a more precise and efficient way.

What if a computer had exponential speed and perfect accuracy

At the same time he pressed the button, the preset program completed running on this film. The signal processed and output by the logic circuit is transmitted to the display screen, and a line of clear characters is quickly displayed on the display screen -

After pressing the power button, Lu Zhou's heart almost rose to his throat.

It seems that your worries are a bit unnecessary

Xiao Ai: [Received! (○｀3′○)]

All that's left is to verify whether the efforts he has made these days and the 20,000 points he has spent are worth it.

These tasks saved Lu Zhou at least 100,000 points.

Although extremely reluctant, Xiao Ai still obeyed the instructions.

And this is also one of the core problems in the development of quantum computers.

Xiao Ai: [Received! (○｀3′○)]

I just don't know if it's his illusion, but I always feel that this little guy's reactions are becoming more and more emotional... Or in other words, more and more human-like

It’s really done!

In the wonderful quantum world, these properties show amazing stability and some remarkable characteristics in a special stage of matter. The most typical example is topological insulators.

But for a long time, although people are accustomed to applying topology to solve problems in the macroscopic world, they have been at a loss as to whether topology can be used to deal with subatomic particles such as electrons and photons.

Xiao Ai: [Eh? Do you know everything? ! Σ(°△°|||)︴]

These tasks saved Lu Zhou at least 100,000 points.

At the moment of upgrading, even if you have not entered the system space, you can still see the dialog box prompt...

Has this guy been upgraded or downgraded...

Lu Zhou couldn't tell whether this was a good thing or not.

[Hello World]

Regarding this question, Professor Duncan Haldane once gave a standard answer. And in the fall of 2016, the physicist and two other colleagues won this year's Nobel Prize in Physics for "the discovery of topological phase transitions and topological phases of matter"!

"...it seems like it's almost time."

“The presentation is impeccable, perfect!”

As if to confirm his words, the signal light on the instrument not far away jumped from green to red.

"All performance tests are in line with expectations."

Upon seeing this, Lu Zhou immediately ordered.

This can be regarded as a manifestation of the saying "knowledge is power".

In the final analysis, the way artificial intelligence processes information is completely different from that of the human brain. One is where logic determines emotions, while the other is where emotions dominate logic.

In the final analysis, the way artificial intelligence processes information is completely different from that of the human brain. One is where logic determines emotions, while the other is where emotions dominate logic.

Sure enough, as he speculated, by observing various behaviors of players in the virtual reality world, the accumulation of progress bars can be accelerated. In other words, in fact, the experience required by the branch of artificial intelligence is actually a kind of sociological experience

At the same time he pressed the button, the preset program completed running on this film. The signal processed and output by the logic circuit is transmitted to the display screen, and a line of clear characters is quickly displayed on the display screen -

Lu Zhou: "..."

“The presentation is impeccable, perfect!”

At the same time he pressed the button, the preset program completed running on this film. The signal processed and output by the logic circuit is transmitted to the display screen, and a line of clear characters is quickly displayed on the display screen -

With the help of Xiao Ai, Lu Zhou transferred the sample from the magnetron sputtering atomic layer deposition equipment to the in-situ freeze dryer, freeze-dried the carbon-based chip sample, and then used a metallographic microscope to The chip was carefully observed and the experimental data was recorded in a notebook on the side.

Maybe its existence will give birth to a brand new species

If you want to solve the problem, you need to either reduce noise, anti-interference, or both together. No matter which technical route is taken, subatomic particles must be stabilized.

"All performance tests are in line with expectations."

Xiao Ai: [Eh? Do you know everything? ! Σ(°△°|||)︴]

I just don't know if it's his illusion, but I always feel that this little guy's reactions are becoming more and more emotional... Or in other words, more and more human-like

So far, he has spent 20,000 points to overcome several key bottlenecks in research, and the rest is based on his knowledge of carbon materials, Mott insulators, and Majorana fermions. , by consulting some previous research results and completing some promotional work on this basis.

Of course, it's too early to tell.

Looking at the jumping characters on the screen, Lu Zhou felt suddenly happy. He clenched his fists tightly and almost jumped up with excitement.

This includes multi-functional physical property measurement systems, step meters, vibrating sample magnetometers, high and low temperature magnetoresistance testers, and in-situ freeze dryers, etc. Although it is not a luxurious lineup, it can be said that it is a small but sparrow. Everything is complete.

"All performance tests are in line with expectations."

[Hello World]

So far, he has spent 20,000 points to overcome several key bottlenecks in research, and the rest is based on his knowledge of carbon materials, Mott insulators, and Majorana fermions. , by consulting some previous research results and completing some promotional work on this basis.

As its "guardian", Lu Zhou could only say that he had fulfilled his responsibilities and took it one step at a time.

After carefully placing a thumb-sized film into the magnetron sputtering atomic layer deposition equipment, Lu Zhou carefully compared the data on the experimental form and set new experimental parameters on the computer.

In addition, in addition to these indispensable equipment for studying carbon materials, there is also a light-curing 3D printer with a maximum accuracy of 8 microns, which is mainly used to print plastic molds needed for experiments.

Lu Zhou sighed in his heart, ignored it, closed his eyes and entered the system space.

Focusing on the air half a meter in front of the small TV, Lu Zhou raised his eyelids and said with some surprise.

As if he was contemplating a perfect work of art, a heartfelt smile appeared on his face.

In the wonderful quantum world, these properties show amazing stability and some remarkable characteristics in a special stage of matter. The most typical example is topological insulators.

If you want to solve the problem, you need to either reduce noise, anti-interference, or both together. No matter which technical route is taken, subatomic particles must be stabilized.

Lu Zhou couldn't tell whether this was a good thing or not.

At least judging from his current performance, the little guy is still quite obedient. He plays the role of a little assistant both in life and in research, and he absolutely obeys his orders without compromise.

After carefully placing a thumb-sized film into the magnetron sputtering atomic layer deposition equipment, Lu Zhou carefully compared the data on the experimental form and set new experimental parameters on the computer.

According to the principle of quantum computers, information is stored in something called a quantum bit (qubit) mainly through the property that subatomic particles can be in different states at the same time. It is precisely because of this characteristic that quantum computers can solve problems exponentially faster than traditional computers.

The green signal light came on and the equipment in the laboratory began to operate.

It seems that your worries are a bit unnecessary

Lu Zhou: "Yeah, well done."

He now has more than 30,000 points. According to the price offered by the system, he needs 120,000 points to redeem a full set of quantum computer technology.

However, the 2016 Nobel Prize in Physics gave a positive answer to this proposition.

With the help of Xiao Ai, Lu Zhou transferred the sample from the magnetron sputtering atomic layer deposition equipment to the in-situ freeze dryer, freeze-dried the carbon-based chip sample, and then used a metallographic microscope to The chip was carefully observed and the experimental data was recorded in a notebook on the side.

After doing all this work, he finally breathed a sigh of relief and hit the Enter button on the keyboard.

However, the problem is that the subatomic particles that store data are very fragile. Unlike stable atoms, even slight disturbances may change its state.

Simply put, through rigorous experiments, they discovered that even the smallest-scale microscopic substances can exhibit macroscopic properties and have topological phases.

Although extremely reluctant, Xiao Ai still obeyed the instructions.

But for a long time, although people are accustomed to applying topology to solve problems in the macroscopic world, they have been at a loss as to whether topology can be used to deal with subatomic particles such as electrons and photons.

Almost instantly.

Subconsciously, he shouted out the excitement in his heart. As a result, Lu Zhou was startled by his behavior and hurriedly checked the operating status of the equipment.

In other words, the qubits formed under this topological phase will not change due to some small or local interference. It is far more stable than ordinary qubits and allows our quantum computing to process the answers we want in a more precise and efficient way.

He now has more than 30,000 points. According to the price offered by the system, he needs 120,000 points to redeem a full set of quantum computer technology.

If you want to solve the problem, you need to either reduce noise, anti-interference, or both together. No matter which technical route is taken, subatomic particles must be stabilized.

Subconsciously, he shouted out the excitement in his heart. As a result, Lu Zhou was startled by his behavior and hurriedly checked the operating status of the equipment.

“The presentation is impeccable, perfect!”

When he saw that this "film"-like chip was running stably and that his cheers of more than 80 decibels did not cause "the collapse of the entangled state of qubits", Lu Zhou's face finally showed a heartfelt look of relief. smile.

At the same time he pressed the button, the preset program completed running on this film. The signal processed and output by the logic circuit is transmitted to the display screen, and a line of clear characters is quickly displayed on the display screen -

Lu Zhou: "..."

But for a long time, although people are accustomed to applying topology to solve problems in the macroscopic world, they have been at a loss as to whether topology can be used to deal with subatomic particles such as electrons and photons.

However, in fact, this valuation actually contains a lot of water.

He now has more than 30,000 points. According to the price offered by the system, he needs 120,000 points to redeem a full set of quantum computer technology.

In addition, in addition to these indispensable equipment for studying carbon materials, there is also a light-curing 3D printer with a maximum accuracy of 8 microns, which is mainly used to print plastic molds needed for experiments.

"Have you upgraded?"

At the same time he pressed the button, the preset program completed running on this film. The signal processed and output by the logic circuit is transmitted to the display screen, and a line of clear characters is quickly displayed on the display screen -

Maybe its existence will give birth to a brand new species

And this is also one of the core problems in the development of quantum computers.

If you split the problem and raise unsolved problems on the basis of those problems that have been solved by the academic community, the points consumed can be reduced by 80% or more!

Although extremely reluctant, Xiao Ai still obeyed the instructions.

"Success!"

Especially in the fields of physics and materials, many amazing discoveries in the 1980s were derived from topological methods, which provided a theoretical basis.

If you want to solve the problem, you need to either reduce noise, anti-interference, or both together. No matter which technical route is taken, subatomic particles must be stabilized.

Xiao Ai: [Master, master! Just at that moment! Something amazing happened! φ(≧ω≦*)]

At the moment of upgrading, even if you have not entered the system space, you can still see the dialog box prompt...

What if a computer had exponential speed and perfect accuracy

So far, he has spent 20,000 points to overcome several key bottlenecks in research, and the rest is based on his knowledge of carbon materials, Mott insulators, and Majorana fermions. , by consulting some previous research results and completing some promotional work on this basis.

When he opened his eyes, he saw that the small TV staring at the quadcopter had been shining in front of him for a long time.

After returning to the office chair next to him with his coffee and sitting down, Lu Zhou glanced at his watch and was thinking of something to kill the boring time when Xiao Ai controlled a drone and swung over from the side.

Xiao Ai: [Received! (○｀3′○)]

It’s really done!

For example, a topological insulator carbon material containing Majorana fermions is superimposed on top of a single-atom-width superconductor layer without affecting the stability of Majorana fermions.

In addition, in addition to these indispensable equipment for studying carbon materials, there is also a light-curing 3D printer with a maximum accuracy of 8 microns, which is mainly used to print plastic molds needed for experiments.

But for a long time, although people are accustomed to applying topology to solve problems in the macroscopic world, they have been at a loss as to whether topology can be used to deal with subatomic particles such as electrons and photons.

Xiao Ai: [So perfunctory! QAQ]

In this special topological phase material, subatoms can be protected.

According to the principle of quantum computers, information is stored in something called a quantum bit (qubit) mainly through the property that subatomic particles can be in different states at the same time. It is precisely because of this characteristic that quantum computers can solve problems exponentially faster than traditional computers.

Especially in the fields of physics and materials, many amazing discoveries in the 1980s were derived from topological methods, which provided a theoretical basis.

In other words, the qubits formed under this topological phase will not change due to some small or local interference. It is far more stable than ordinary qubits and allows our quantum computing to process the answers we want in a more precise and efficient way.

All that's left is to verify whether the efforts he has made these days and the 20,000 points he has spent are worth it.

According to the principle of quantum computers, information is stored in something called a quantum bit (qubit) mainly through the property that subatomic particles can be in different states at the same time. It is precisely because of this characteristic that quantum computers can solve problems exponentially faster than traditional computers.

In the final analysis, the way artificial intelligence processes information is completely different from that of the human brain. One is where logic determines emotions, while the other is where emotions dominate logic.

Focusing on the air half a meter in front of the small TV, Lu Zhou raised his eyelids and said with some surprise.

After doing all this work, he finally breathed a sigh of relief and hit the Enter button on the keyboard.

Xiao Ai: [Master, master! Just at that moment! Something amazing happened! φ(≧ω≦*)]

These tasks saved Lu Zhou at least 100,000 points.

Sure enough, as he speculated, by observing various behaviors of players in the virtual reality world, the accumulation of progress bars can be accelerated. In other words, in fact, the experience required by the branch of artificial intelligence is actually a kind of sociological experience

It is also a topic that Lu Zhou has been studying these days...

Sure enough, as he speculated, by observing various behaviors of players in the virtual reality world, the accumulation of progress bars can be accelerated. In other words, in fact, the experience required by the branch of artificial intelligence is actually a kind of sociological experience

It seems that your worries are a bit unnecessary

It is precisely these tasks that give him the opportunity to use his points wisely.

In other words, the qubits formed under this topological phase will not change due to some small or local interference. It is far more stable than ordinary qubits and allows our quantum computing to process the answers we want in a more precise and efficient way.

Xiao Ai: [Eh? Do you know everything? ! Σ(°△°|||)︴]

This can be regarded as a manifestation of the saying "knowledge is power".

This can be regarded as a manifestation of the saying "knowledge is power".

And this is also one of the core problems in the development of quantum computers.

After carefully completing the last step of all experimental work, Lu Zhou placed a thin layer of translucent graphene sheets on the prepared circuit mold.

Lu Zhou sighed in his heart, ignored it, closed his eyes and entered the system space.

Lu Zhou: "Yeah, well done."

So far, he has spent 20,000 points to overcome several key bottlenecks in research, and the rest is based on his knowledge of carbon materials, Mott insulators, and Majorana fermions. , by consulting some previous research results and completing some promotional work on this basis.

"Have you upgraded?"

[…]

Especially in the fields of physics and materials, many amazing discoveries in the 1980s were derived from topological methods, which provided a theoretical basis.

However, the 2016 Nobel Prize in Physics gave a positive answer to this proposition.

As if he was contemplating a perfect work of art, a heartfelt smile appeared on his face.

As its "guardian", Lu Zhou could only say that he had fulfilled his responsibilities and took it one step at a time.

If you split the problem and raise unsolved problems on the basis of those problems that have been solved by the academic community, the points consumed can be reduced by 80% or more!

I just don't know if it's his illusion, but I always feel that this little guy's reactions are becoming more and more emotional... Or in other words, more and more human-like

[…]

"All performance tests are in line with expectations."

Especially in the fields of physics and materials, many amazing discoveries in the 1980s were derived from topological methods, which provided a theoretical basis.

This sounds a bit difficult to understand. If you want to understand it, you have to understand the concept of topology.

[…]

Regarding this question, Professor Duncan Haldane once gave a standard answer. And in the fall of 2016, the physicist and two other colleagues won this year's Nobel Prize in Physics for "the discovery of topological phase transitions and topological phases of matter"!

He now has more than 30,000 points. According to the price offered by the system, he needs 120,000 points to redeem a full set of quantum computer technology.

This is the so-called "decoherence" in quantum mechanics - any environmental influence may cause the collapse of the entangled state of the qubit!

Subconsciously, he shouted out the excitement in his heart. As a result, Lu Zhou was startled by his behavior and hurriedly checked the operating status of the equipment.

As if he was contemplating a perfect work of art, a heartfelt smile appeared on his face.

“The presentation is impeccable, perfect!”

"Have you upgraded?"

Almost instantly.

It is also a topic that Lu Zhou has been studying these days...

In particular, this property found in graphene materials directly led to the birth of SG-1 superconducting materials and carbon-based chips.

A classic example is that to a topologist, a donut and a coffee cup both look the same because they both have a hole.

"...Sure enough, Majorana fermions are the perfect choice for building quantum computers!"

"Success!"

All that's left is to verify whether the efforts he has made these days and the 20,000 points he has spent are worth it.

After carefully completing the last step of all experimental work, Lu Zhou placed a thin layer of translucent graphene sheets on the prepared circuit mold.

Lu Zhou couldn't tell whether this was a good thing or not.

Of course, it's too early to tell.

When he opened his eyes, he saw that the small TV staring at the quadcopter had been shining in front of him for a long time.

Because they are all affected by the strange laws of quantum physics, their size, position and even shape are in an uncertain state.

It is precisely these tasks that give him the opportunity to use his points wisely.

All that's left is to verify whether the efforts he has made these days and the 20,000 points he has spent are worth it.

However, in fact, this valuation actually contains a lot of water.

Branch technology serves as a branch of system tasks, and the accumulation of experience in artificial intelligence and informatics experience are synchronized. The moment Xiao Ai's level was raised to LV4, his informatics level was also raised from LV4 to LV5.

After pressing the power button, Lu Zhou's heart almost rose to his throat.

Xiao Ai: [Master, master, don’t you praise Xiao Ai? (*/ω\*)]

However, the problem is that the subatomic particles that store data are very fragile. Unlike stable atoms, even slight disturbances may change its state.

It is precisely these tasks that give him the opportunity to use his points wisely.

Xiao Ai: [Received! (○｀3′○)]

After pressing the power button, Lu Zhou's heart almost rose to his throat.

[Hello World]

This is the so-called "decoherence" in quantum mechanics - any environmental influence may cause the collapse of the entangled state of the qubit!

Xiao Ai: [Master, master! Just at that moment! Something amazing happened! φ(≧ω≦*)]

After carefully completing the last step of all experimental work, Lu Zhou placed a thin layer of translucent graphene sheets on the prepared circuit mold.

When he opened his eyes, he saw that the small TV staring at the quadcopter had been shining in front of him for a long time.

However, the problem is that the subatomic particles that store data are very fragile. Unlike stable atoms, even slight disturbances may change its state.

Almost instantly.

Maybe its existence will give birth to a brand new species

After pressing the power button, Lu Zhou's heart almost rose to his throat.

However, in fact, this valuation actually contains a lot of water.

Because there is only one hole, you can transform the donut into a coffee cup through a smooth deformation process, and vice versa... Even though this may seem a little difficult to understand or even inexplicable to ordinary people, in fact because of this A mathematical method, scholars in other fields have discovered a lot of interesting things.

This includes multi-functional physical property measurement systems, step meters, vibrating sample magnetometers, high and low temperature magnetoresistance testers, and in-situ freeze dryers, etc. Although it is not a luxurious lineup, it can be said that it is a small but sparrow. Everything is complete.

At the same time he pressed the button, the preset program completed running on this film. The signal processed and output by the logic circuit is transmitted to the display screen, and a line of clear characters is quickly displayed on the display screen -

This sounds a bit difficult to understand. If you want to understand it, you have to understand the concept of topology.

[…]

In the final analysis, the way artificial intelligence processes information is completely different from that of the human brain. One is where logic determines emotions, while the other is where emotions dominate logic.

It is precisely these tasks that give him the opportunity to use his points wisely.

Upon seeing this, Lu Zhou immediately ordered.

So far, he has spent 20,000 points to overcome several key bottlenecks in research, and the rest is based on his knowledge of carbon materials, Mott insulators, and Majorana fermions. , by consulting some previous research results and completing some promotional work on this basis.

[Hello World]

Branch technology serves as a branch of system tasks, and the accumulation of experience in artificial intelligence and informatics experience are synchronized. The moment Xiao Ai's level was raised to LV4, his informatics level was also raised from LV4 to LV5.

"All performance tests are in line with expectations."

[Hello World]

Looking at the jumping characters on the screen, Lu Zhou felt suddenly happy. He clenched his fists tightly and almost jumped up with excitement.

"...Sure enough, Majorana fermions are the perfect choice for building quantum computers!"

In other words, the qubits formed under this topological phase will not change due to some small or local interference. It is far more stable than ordinary qubits and allows our quantum computing to process the answers we want in a more precise and efficient way.

However, in fact, this valuation actually contains a lot of water.

After returning to the office chair next to him with his coffee and sitting down, Lu Zhou glanced at his watch and was thinking of something to kill the boring time when Xiao Ai controlled a drone and swung over from the side.

Lu Zhou: "Yeah, well done."

In other words, the qubits formed under this topological phase will not change due to some small or local interference. It is far more stable than ordinary qubits and allows our quantum computing to process the answers we want in a more precise and efficient way.

At least judging from his current performance, the little guy is still quite obedient. He plays the role of a little assistant both in life and in research, and he absolutely obeys his orders without compromise.

"Success!"

As if to confirm his words, the signal light on the instrument not far away jumped from green to red.

However, Lu Zhou didn't pay much attention to Xiao Ai now. After entering the system space, he just took a look at his attribute panel and the progress bar of branch technologies, and then turned his consciousness back to the real world.

Sure enough, as he speculated, by observing various behaviors of players in the virtual reality world, the accumulation of progress bars can be accelerated. In other words, in fact, the experience required by the branch of artificial intelligence is actually a kind of sociological experience

For example, a topological insulator carbon material containing Majorana fermions is superimposed on top of a single-atom-width superconductor layer without affecting the stability of Majorana fermions.

The empty room that was originally used as a spare sample room is now being filled with a lot of newly purchased equipment.

At the moment of upgrading, even if you have not entered the system space, you can still see the dialog box prompt...

So far, he has spent 20,000 points to overcome several key bottlenecks in research, and the rest is based on his knowledge of carbon materials, Mott insulators, and Majorana fermions. , by consulting some previous research results and completing some promotional work on this basis.

It is precisely these tasks that give him the opportunity to use his points wisely.

Subconsciously, he shouted out the excitement in his heart. As a result, Lu Zhou was startled by his behavior and hurriedly checked the operating status of the equipment.

It is also a topic that Lu Zhou has been studying these days...

What would happen if electrical energy did not decay during transmission

Almost instantly.

Looking at the jumping characters on the screen, Lu Zhou felt suddenly happy. He clenched his fists tightly and almost jumped up with excitement.

This theory obviously has no impact on daily life, but for the field of electronic engineering, it does open the door to a new world!

When he saw that this "film"-like chip was running stably and that his cheers of more than 80 decibels did not cause "the collapse of the entangled state of qubits", Lu Zhou's face finally showed a heartfelt look of relief. smile.

Lu Zhou: "..."

Focusing on the air half a meter in front of the small TV, Lu Zhou raised his eyelids and said with some surprise.

After carefully placing a thumb-sized film into the magnetron sputtering atomic layer deposition equipment, Lu Zhou carefully compared the data on the experimental form and set new experimental parameters on the computer.

Because they are all affected by the strange laws of quantum physics, their size, position and even shape are in an uncertain state.

A classic example is that to a topologist, a donut and a coffee cup both look the same because they both have a hole.

It seems that this time...

Jinling Institute for Advanced Study, laboratory on the third underground floor.

Lu Zhou couldn't tell whether this was a good thing or not.

After carefully placing a thumb-sized film into the magnetron sputtering atomic layer deposition equipment, Lu Zhou carefully compared the data on the experimental form and set new experimental parameters on the computer.

I just don't know if it's his illusion, but I always feel that this little guy's reactions are becoming more and more emotional... Or in other words, more and more human-like

In addition, in addition to these indispensable equipment for studying carbon materials, there is also a light-curing 3D printer with a maximum accuracy of 8 microns, which is mainly used to print plastic molds needed for experiments.

It’s really done!

At the same time he pressed the button, the preset program completed running on this film. The signal processed and output by the logic circuit is transmitted to the display screen, and a line of clear characters is quickly displayed on the display screen -

After pressing the power button, Lu Zhou's heart almost rose to his throat.

If you want to solve the problem, you need to either reduce noise, anti-interference, or both together. No matter which technical route is taken, subatomic particles must be stabilized.

When he saw that this "film"-like chip was running stably and that his cheers of more than 80 decibels did not cause "the collapse of the entangled state of qubits", Lu Zhou's face finally showed a heartfelt look of relief. smile.