The world of mathematics has been unexpectedly restless recently.
According to Lu Zhou’s mathematical model, the positions of these two energy bands were finally determined experimentally at the negative doping and positive doping of graphene’s Dirac point.
Although he was not confident at first, Lu Zhou was quite satisfied after coming up with the name.
From modified PDMS to HCS-2…
After all, the 500-page paper, which is said to be understood by no more than twenty people in the world, caused considerable controversy as early as 2012.
For example, how to explain the bandgap width of a superlattice near 1.1°? For example, what order parameters should be used to describe the Mott insulator formed at this angle...
"… What's wrong?"
Lu Zhou couldn't resist the kindness, so he smiled sheepishly, and after thinking seriously for a moment, he spoke.
First came Sir Attiyah and the Riemann Hypothesis, and then Schultz and Mochizuki Shinichi.
"It's nothing, SG-1 is just SG-1... It's just such an exciting discovery, I thought you would think of a name that sounded a little cooler."
As for why it was quiet.
However, these two people obviously didn't understand him very well.
Lu Zhou couldn't resist the kindness, so he smiled sheepishly, and after thinking seriously for a moment, he spoke.
As for why it was quiet.
The world of mathematics has been unexpectedly restless recently.
In this way, time passed day by day, and soon it was the end of October.
Not long ago, Peter Schulz and Jacob Stix jointly published a paper arguing that there are problems with the proof of inequality (1.5) in Mochizuki Shinichi's paper, and that small fixes are not enough. The entire proof process cannot be saved.
In short, they changed the carrier concentration of the material through N doping, and adjusted the overlapping angle of the modified two-dimensional material, and finally found the "half-filled" structure they were pursuing at a new angle.
As for why, he will write a paper to explain.
Although the mathematical model has been completed, it does not mean that he does not need to appear in the laboratory.
Professor Chiric, who was standing next to him, was also beaming with joy, but compared to Connie, he had seen a lot of storms, so he just joked with a smile.
According to Lu Zhou’s mathematical model, the positions of these two energy bands were finally determined experimentally at the negative doping and positive doping of graphene’s Dirac point.
Of course, from Mochizuki's point of view, the error pointed out by Schulz was not a problem at all.
Not long ago, Peter Schulz and Jacob Stix jointly published a paper arguing that there are problems with the proof of inequality (1.5) in Mochizuki Shinichi's paper, and that small fixes are not enough. The entire proof process cannot be saved.
Because the instruments here and the samples they observed were too "fragile", and the experiments they conducted were full of metaphysics, so even a slightly strong vibration might affect the final experimental results.
Compared with Sir Attiyah's paper, which was not even an error, this debate is obviously more topical in the mathematics community.
As for why, he will write a paper to explain.
As for why, he will write a paper to explain.
When the temperature reaches 101K, this new material undergoes a superconducting transition as they imagined.
However, these two people obviously didn't understand him very well.
It was obvious that this was what they were looking for.
Compared with Sir Attiyah's paper, which was not even an error, this debate is obviously more topical in the mathematics community.
In short, they changed the carrier concentration of the material through N doping, and adjusted the overlapping angle of the modified two-dimensional material, and finally found the "half-filled" structure they were pursuing at a new angle.
"It's nothing, SG-1 is just SG-1... It's just such an exciting discovery, I thought you would think of a name that sounded a little cooler."
The ABC conjecture was not Lu Zhou's focus. After setting a concern label on the progress of this matter, he stopped paying attention to the specific situation and focused all his energy on the research of superconducting materials.
Although 101K is also not a high temperature, relatively speaking, there is no doubt that this is an amazing result.
There were quiet cheers in the SEM room of the Frick Chemistry Laboratory.
Although the mathematical model has been completed, it does not mean that he does not need to appear in the laboratory.
After all, the 500-page paper, which is said to be understood by no more than twenty people in the world, caused considerable controversy as early as 2012.
After all, the 500-page paper, which is said to be understood by no more than twenty people in the world, caused considerable controversy as early as 2012.
Perhaps someone will come to complete these more in-depth theoretical work in the future, or perhaps their partners will be interested in completing this follow-up work.
On one side is the founder of "Far Abelian Geometry" and "Interuniverse Theory" and a disciple of Mr. Faltings. On the other side is the founder of "PS Theory" and the latest Fields Medal winner. The confrontation between them felt like a fight between gods, which was dazzling to outsiders.
Not long ago, Peter Schulz and Jacob Stix jointly published a paper arguing that there are problems with the proof of inequality (1.5) in Mochizuki Shinichi's paper, and that small fixes are not enough. The entire proof process cannot be saved.
For example, how to explain the bandgap width of a superlattice near 1.1°? For example, what order parameters should be used to describe the Mott insulator formed at this angle...
Looking at Lu Zhou with excitement, Connie continued: "Professor, how should we name the new material?"
Although he was not confident at first, Lu Zhou was quite satisfied after coming up with the name.
Professor Chiric, who was standing next to him, was also beaming with joy, but compared to Connie, he had seen a lot of storms, so he just joked with a smile.
Because the instruments here and the samples they observed were too "fragile", and the experiments they conducted were full of metaphysics, so even a slightly strong vibration might affect the final experimental results.
Unfortunately, compared with number theory, algebraic geometry is not Lu Zhou's strong point, let alone the unpopular one - "far Abelian geometry".
Lu Zhou couldn't resist the kindness, so he smiled sheepishly, and after thinking seriously for a moment, he spoke.
Perhaps someone will come to complete these more in-depth theoretical work in the future, or perhaps their partners will be interested in completing this follow-up work.
There were quiet cheers in the SEM room of the Frick Chemistry Laboratory.
That can be of great use.
The ABC conjecture was not Lu Zhou's focus. After setting a concern label on the progress of this matter, he stopped paying attention to the specific situation and focused all his energy on the research of superconducting materials.
During the entire process, Lu Zhou and others continued to measure the resistance of the material while lowering the temperature of the material. They soon discovered that when the temperature dropped to 101K, the decrease rate of resistance reached an abrupt peak, and the resistance value also sharply approached zero.
If I had known earlier, I shouldn't have given him the chance to name him.
After all, considering the stacking methods of two-dimensional materials and complex chemical processing methods, there are too many graphene materials that can be classified as N-type doped...
Compared with Jinling Institute of Computational Materials and Sarote Laboratory, their work is mainly focused on theory, that is, looking for those two energy bands whose energy band structure is close to zero dispersion...
Although the mathematical model has been completed, it does not mean that he does not need to appear in the laboratory.
Although the mathematical model has been completed, it does not mean that he does not need to appear in the laboratory.
"Don't be modest. Your mathematical model will undoubtedly be of great use. If we use traditional methods to find this sample, we will be grateful to be able to produce phased results before the end of the year."
Looking at Lu Zhou with excitement, Connie continued: "Professor, how should we name the new material?"
There were quiet cheers in the SEM room of the Frick Chemistry Laboratory.
Any conclusions based on calculations are open to question. What computational materials can do is only guide experiments, not determine experimental results.
I have to admit that sometimes theoretical and applied research do not conflict, especially in the field of materials science.
After all, considering the stacking methods of two-dimensional materials and complex chemical processing methods, there are too many graphene materials that can be classified as N-type doped...
Compared with Sir Attiyah's paper, which was not even an error, this debate is obviously more topical in the mathematics community.
The world of mathematics has been unexpectedly restless recently.
Not only to produce results as quickly as possible, but also to use the experience gained in experiments to improve his theory. No matter what the reason is, Lu Zhou cannot leave the laboratory.
According to Lu Zhou’s mathematical model, the positions of these two energy bands were finally determined experimentally at the negative doping and positive doping of graphene’s Dirac point.
"It's N-type doping. We succeeded, Professor!"
Connie:…
In this way, time passed day by day, and soon it was the end of October.
"It's N-type doping. We succeeded, Professor!"
"In that case... let's call it SG-1."
As for why it was quiet.
Not only to produce results as quickly as possible, but also to use the experience gained in experiments to improve his theory. No matter what the reason is, Lu Zhou cannot leave the laboratory.
During the entire process, Lu Zhou and others continued to measure the resistance of the material while lowering the temperature of the material. They soon discovered that when the temperature dropped to 101K, the decrease rate of resistance reached an abrupt peak, and the resistance value also sharply approached zero.
Any conclusions based on calculations are open to question. What computational materials can do is only guide experiments, not determine experimental results.
There were quiet cheers in the SEM room of the Frick Chemistry Laboratory.
This sudden flattery was as unexpected as the sudden success. Lu Zhou felt a little embarrassed when he heard it, so he coughed lightly and said, "That's too exaggerated. What I provided is just a mathematical model."
The ABC conjecture was not Lu Zhou's focus. After setting a concern label on the progress of this matter, he stopped paying attention to the specific situation and focused all his energy on the research of superconducting materials.
Although 101K is also not a high temperature, relatively speaking, there is no doubt that this is an amazing result.
Compared with Sir Attiyah's paper, which was not even an error, this debate is obviously more topical in the mathematics community.
The world of mathematics has been unexpectedly restless recently.
Unfortunately, compared with number theory, algebraic geometry is not Lu Zhou's strong point, let alone the unpopular one - "far Abelian geometry".
Any conclusions based on calculations are open to question. What computational materials can do is only guide experiments, not determine experimental results.
As for why it was quiet.
As for what's the use of this
Lu Zhou couldn't resist the kindness, so he smiled sheepishly, and after thinking seriously for a moment, he spoke.
"It's nothing, SG-1 is just SG-1... It's just such an exciting discovery, I thought you would think of a name that sounded a little cooler."
Connie:…
"What do you think of this name?"
Because the instruments here and the samples they observed were too "fragile", and the experiments they conducted were full of metaphysics, so even a slightly strong vibration might affect the final experimental results.
Unfortunately, compared with number theory, algebraic geometry is not Lu Zhou's strong point, let alone the unpopular one - "far Abelian geometry".
Not only Connie, but also Professor Chilik said with a smile: "Of course, you should be the one to complete this job."
Not only to produce results as quickly as possible, but also to use the experience gained in experiments to improve his theory. No matter what the reason is, Lu Zhou cannot leave the laboratory.
"In that case... let's call it SG-1."
Professor Chiric, who was standing next to him, was also beaming with joy, but compared to Connie, he had seen a lot of storms, so he just joked with a smile.
Lu Zhou: "..."
After all, the 500-page paper, which is said to be understood by no more than twenty people in the world, caused considerable controversy as early as 2012.
"It's N-type doping. We succeeded, Professor!"
Perhaps someone will come to complete these more in-depth theoretical work in the future, or perhaps their partners will be interested in completing this follow-up work.
This sudden flattery was as unexpected as the sudden success. Lu Zhou felt a little embarrassed when he heard it, so he coughed lightly and said, "That's too exaggerated. What I provided is just a mathematical model."
Although 101K is also not a high temperature, relatively speaking, there is no doubt that this is an amazing result.
Clenching his fists, Connie looked excitedly at the images captured through the scanning electron microscope on the screen. While saving the data, he said with joy, "I know that as long as you join my project, we will face The problem is not a problem at all!”
After all, considering the stacking methods of two-dimensional materials and complex chemical processing methods, there are too many graphene materials that can be classified as N-type doped...
SG is the abbreviation of superconducting graphene. Although it can also be named by the preparation method or compound type, it is easier to distinguish it by naming it functionally.
After all, the 500-page paper, which is said to be understood by no more than twenty people in the world, caused considerable controversy as early as 2012.
This sudden flattery was as unexpected as the sudden success. Lu Zhou felt a little embarrassed when he heard it, so he coughed lightly and said, "That's too exaggerated. What I provided is just a mathematical model."
However, these two people obviously didn't understand him very well.
After all, considering the stacking methods of two-dimensional materials and complex chemical processing methods, there are too many graphene materials that can be classified as N-type doped...
Professor Chiric, who was standing next to him, was also beaming with joy, but compared to Connie, he had seen a lot of storms, so he just joked with a smile.
"In that case... let's call it SG-1."
Chiric:…
In short, they changed the carrier concentration of the material through N doping, and adjusted the overlapping angle of the modified two-dimensional material, and finally found the "half-filled" structure they were pursuing at a new angle.
SG is the abbreviation of superconducting graphene. Although it can also be named by the preparation method or compound type, it is easier to distinguish it by naming it functionally.
On one side is the founder of "Far Abelian Geometry" and "Interuniverse Theory" and a disciple of Mr. Faltings. On the other side is the founder of "PS Theory" and the latest Fields Medal winner. The confrontation between them felt like a fight between gods, which was dazzling to outsiders.
After all, considering the stacking methods of two-dimensional materials and complex chemical processing methods, there are too many graphene materials that can be classified as N-type doped...
I have to admit that sometimes theoretical and applied research do not conflict, especially in the field of materials science.
"Don't be modest. Your mathematical model will undoubtedly be of great use. If we use traditional methods to find this sample, we will be grateful to be able to produce phased results before the end of the year."
Clenching his fists, Connie looked excitedly at the images captured through the scanning electron microscope on the screen. While saving the data, he said with joy, "I know that as long as you join my project, we will face The problem is not a problem at all!”
I have to admit that sometimes theoretical and applied research do not conflict, especially in the field of materials science.
Looking at Lu Zhou with excitement, Connie continued: "Professor, how should we name the new material?"
For example, how to explain the bandgap width of a superlattice near 1.1°? For example, what order parameters should be used to describe the Mott insulator formed at this angle...
After all, considering the stacking methods of two-dimensional materials and complex chemical processing methods, there are too many graphene materials that can be classified as N-type doped...
Lu Zhou couldn't resist the kindness, so he smiled sheepishly, and after thinking seriously for a moment, he spoke.
That can be of great use.
Because the instruments here and the samples they observed were too "fragile", and the experiments they conducted were full of metaphysics, so even a slightly strong vibration might affect the final experimental results.
Compared with Jinling Institute of Computational Materials and Sarote Laboratory, their work is mainly focused on theory, that is, looking for those two energy bands whose energy band structure is close to zero dispersion...
When they applied a small gate voltage across the two-dimensional structure of the material, adding a certain amount of electrons to the Mott insulator, the individual electrons bonded with other electrons in the graphene, allowing them to pass through before they Where it cannot flow.
The world of mathematics has been unexpectedly restless recently.
There were quiet cheers in the SEM room of the Frick Chemistry Laboratory.
"… What's wrong?"
According to Lu Zhou’s mathematical model, the positions of these two energy bands were finally determined experimentally at the negative doping and positive doping of graphene’s Dirac point.
Seeing that the two of them suddenly stopped talking, Lu Zhou hesitated for a moment.
On one side is the founder of "Far Abelian Geometry" and "Interuniverse Theory" and a disciple of Mr. Faltings. On the other side is the founder of "PS Theory" and the latest Fields Medal winner. The confrontation between them felt like a fight between gods, which was dazzling to outsiders.
Although the mathematical model has been completed, it does not mean that he does not need to appear in the laboratory.
Compared with Sir Attiyah's paper, which was not even an error, this debate is obviously more topical in the mathematics community.
As for what's the use of this
Clenching his fists, Connie looked excitedly at the images captured through the scanning electron microscope on the screen. While saving the data, he said with joy, "I know that as long as you join my project, we will face The problem is not a problem at all!”
Any conclusions based on calculations are open to question. What computational materials can do is only guide experiments, not determine experimental results.
After all, the 500-page paper, which is said to be understood by no more than twenty people in the world, caused considerable controversy as early as 2012.
According to Lu Zhou’s mathematical model, the positions of these two energy bands were finally determined experimentally at the negative doping and positive doping of graphene’s Dirac point.
Not only Connie, but also Professor Chilik said with a smile: "Of course, you should be the one to complete this job."
Connie:…
When they applied a small gate voltage across the two-dimensional structure of the material, adding a certain amount of electrons to the Mott insulator, the individual electrons bonded with other electrons in the graphene, allowing them to pass through before they Where it cannot flow.
That can be of great use.
"Don't be modest. Your mathematical model will undoubtedly be of great use. If we use traditional methods to find this sample, we will be grateful to be able to produce phased results before the end of the year."
Not only to produce results as quickly as possible, but also to use the experience gained in experiments to improve his theory. No matter what the reason is, Lu Zhou cannot leave the laboratory.
In short, they changed the carrier concentration of the material through N doping, and adjusted the overlapping angle of the modified two-dimensional material, and finally found the "half-filled" structure they were pursuing at a new angle.
Of course, from Mochizuki's point of view, the error pointed out by Schulz was not a problem at all.
In this way, time passed day by day, and soon it was the end of October.
Compared with Jinling Institute of Computational Materials and Sarote Laboratory, their work is mainly focused on theory, that is, looking for those two energy bands whose energy band structure is close to zero dispersion...
Finding the zero-dispersion energy band is equivalent to finding the Mott insulator they were looking for.
Although he was not confident at first, Lu Zhou was quite satisfied after coming up with the name.
Connie and Professor Chilik looked at each other and made helpless expressions towards Lu Zhou.
The ABC conjecture was not Lu Zhou's focus. After setting a concern label on the progress of this matter, he stopped paying attention to the specific situation and focused all his energy on the research of superconducting materials.
The world of mathematics has been unexpectedly restless recently.
When they applied a small gate voltage across the two-dimensional structure of the material, adding a certain amount of electrons to the Mott insulator, the individual electrons bonded with other electrons in the graphene, allowing them to pass through before they Where it cannot flow.
Because the instruments here and the samples they observed were too "fragile", and the experiments they conducted were full of metaphysics, so even a slightly strong vibration might affect the final experimental results.
"Don't be modest. Your mathematical model will undoubtedly be of great use. If we use traditional methods to find this sample, we will be grateful to be able to produce phased results before the end of the year."
"It's nothing, SG-1 is just SG-1... It's just such an exciting discovery, I thought you would think of a name that sounded a little cooler."
In short, they changed the carrier concentration of the material through N doping, and adjusted the overlapping angle of the modified two-dimensional material, and finally found the "half-filled" structure they were pursuing at a new angle.
I have to admit that sometimes theoretical and applied research do not conflict, especially in the field of materials science.
It was obvious that this was what they were looking for.
Not only to produce results as quickly as possible, but also to use the experience gained in experiments to improve his theory. No matter what the reason is, Lu Zhou cannot leave the laboratory.
During the entire process, Lu Zhou and others continued to measure the resistance of the material while lowering the temperature of the material. They soon discovered that when the temperature dropped to 101K, the decrease rate of resistance reached an abrupt peak, and the resistance value also sharply approached zero.
From modified PDMS to HCS-2…
If I had known earlier, I shouldn't have given him the chance to name him.
It was obvious that this was what they were looking for.
Connie and Professor Chilik looked at each other and made helpless expressions towards Lu Zhou.
It was obvious that this was what they were looking for.
I have to admit that sometimes theoretical and applied research do not conflict, especially in the field of materials science.
I have to admit that sometimes theoretical and applied research do not conflict, especially in the field of materials science.
"It's N-type doping. We succeeded, Professor!"
During the entire process, Lu Zhou and others continued to measure the resistance of the material while lowering the temperature of the material. They soon discovered that when the temperature dropped to 101K, the decrease rate of resistance reached an abrupt peak, and the resistance value also sharply approached zero.
To be honest, his ability to choose names has never been very good.
Although he was not confident at first, Lu Zhou was quite satisfied after coming up with the name.
Of course, in addition to these easy-to-understand studies, there are also many more profound theoretical works in it, and there are also many problems that even Lu Zhou has not figured out how to explain.
First came Sir Attiyah and the Riemann Hypothesis, and then Schultz and Mochizuki Shinichi.
Not only to produce results as quickly as possible, but also to use the experience gained in experiments to improve his theory. No matter what the reason is, Lu Zhou cannot leave the laboratory.
Of course, from Mochizuki's point of view, the error pointed out by Schulz was not a problem at all.
For example, how to explain the bandgap width of a superlattice near 1.1°? For example, what order parameters should be used to describe the Mott insulator formed at this angle...
Professor Chiric, who was standing next to him, was also beaming with joy, but compared to Connie, he had seen a lot of storms, so he just joked with a smile.
Compared with Jinling Institute of Computational Materials and Sarote Laboratory, their work is mainly focused on theory, that is, looking for those two energy bands whose energy band structure is close to zero dispersion...
During the entire process, Lu Zhou and others continued to measure the resistance of the material while lowering the temperature of the material. They soon discovered that when the temperature dropped to 101K, the decrease rate of resistance reached an abrupt peak, and the resistance value also sharply approached zero.
For example, how to explain the bandgap width of a superlattice near 1.1°? For example, what order parameters should be used to describe the Mott insulator formed at this angle...
"It's nothing, SG-1 is just SG-1... It's just such an exciting discovery, I thought you would think of a name that sounded a little cooler."
Unfortunately, compared with number theory, algebraic geometry is not Lu Zhou's strong point, let alone the unpopular one - "far Abelian geometry".
Lu Zhou: "..."
Perhaps someone will come to complete these more in-depth theoretical work in the future, or perhaps their partners will be interested in completing this follow-up work.
The world of mathematics has been unexpectedly restless recently.
Unfortunately, compared with number theory, algebraic geometry is not Lu Zhou's strong point, let alone the unpopular one - "far Abelian geometry".
Lu Zhou couldn't resist the kindness, so he smiled sheepishly, and after thinking seriously for a moment, he spoke.
In short, they changed the carrier concentration of the material through N doping, and adjusted the overlapping angle of the modified two-dimensional material, and finally found the "half-filled" structure they were pursuing at a new angle.
Of course, from Mochizuki's point of view, the error pointed out by Schulz was not a problem at all.
"It's nothing, SG-1 is just SG-1... It's just such an exciting discovery, I thought you would think of a name that sounded a little cooler."
After all, the 500-page paper, which is said to be understood by no more than twenty people in the world, caused considerable controversy as early as 2012.
Lu Zhou's expression was a little subtle: "...are you sure you want me to name it?"
The ABC conjecture was not Lu Zhou's focus. After setting a concern label on the progress of this matter, he stopped paying attention to the specific situation and focused all his energy on the research of superconducting materials.
I have to admit that sometimes theoretical and applied research do not conflict, especially in the field of materials science.
Compared with Sir Attiyah's paper, which was not even an error, this debate is obviously more topical in the mathematics community.
As for what's the use of this
When the temperature reaches 101K, this new material undergoes a superconducting transition as they imagined.
Of course, it was not enough for him to be satisfied. Naturally, he had to seek the opinions of the other two collaborators.
After all, the 500-page paper, which is said to be understood by no more than twenty people in the world, caused considerable controversy as early as 2012.
Seeing that the two of them suddenly stopped talking, Lu Zhou hesitated for a moment.
However, these two people obviously didn't understand him very well.
Although he was not confident at first, Lu Zhou was quite satisfied after coming up with the name.
Although 101K is also not a high temperature, relatively speaking, there is no doubt that this is an amazing result.
"What do you think of this name?"
It was obvious that this was what they were looking for.
Lu Zhou couldn't resist the kindness, so he smiled sheepishly, and after thinking seriously for a moment, he spoke.
If I had known earlier, I shouldn't have given him the chance to name him.
There were quiet cheers in the SEM room of the Frick Chemistry Laboratory.
Looking at Lu Zhou with excitement, Connie continued: "Professor, how should we name the new material?"
After all, the 500-page paper, which is said to be understood by no more than twenty people in the world, caused considerable controversy as early as 2012.
"Don't be modest. Your mathematical model will undoubtedly be of great use. If we use traditional methods to find this sample, we will be grateful to be able to produce phased results before the end of the year."
Seeing that the two of them suddenly stopped talking, Lu Zhou hesitated for a moment.
"It's nothing, SG-1 is just SG-1... It's just such an exciting discovery, I thought you would think of a name that sounded a little cooler."
Finding the zero-dispersion energy band is equivalent to finding the Mott insulator they were looking for.
Thinking about it carefully, this guy seems to have always had this style of naming.
Of course, in addition to these easy-to-understand studies, there are also many more profound theoretical works in it, and there are also many problems that even Lu Zhou has not figured out how to explain.
As for why, he will write a paper to explain.
Lu Zhou's expression was a little subtle: "...are you sure you want me to name it?"
Not only to produce results as quickly as possible, but also to use the experience gained in experiments to improve his theory. No matter what the reason is, Lu Zhou cannot leave the laboratory.
Although 101K is also not a high temperature, relatively speaking, there is no doubt that this is an amazing result.
Thinking about it carefully, this guy seems to have always had this style of naming.
Compared with Sir Attiyah's paper, which was not even an error, this debate is obviously more topical in the mathematics community.
He is quite self-aware about this.
To be honest, his ability to choose names has never been very good.
"Don't be modest. Your mathematical model will undoubtedly be of great use. If we use traditional methods to find this sample, we will be grateful to be able to produce phased results before the end of the year."
"It's nothing, SG-1 is just SG-1... It's just such an exciting discovery, I thought you would think of a name that sounded a little cooler."
As for why it was quiet.
Lu Zhou: "..."
As for what's the use of this
If I had known earlier, I shouldn't have given him the chance to name him.
Compared with Sir Attiyah's paper, which was not even an error, this debate is obviously more topical in the mathematics community.
First came Sir Attiyah and the Riemann Hypothesis, and then Schultz and Mochizuki Shinichi.
He is quite self-aware about this.
Unfortunately, compared with number theory, algebraic geometry is not Lu Zhou's strong point, let alone the unpopular one - "far Abelian geometry".
That can be of great use.
However, these two people obviously didn't understand him very well.
The ABC conjecture was not Lu Zhou's focus. After setting a concern label on the progress of this matter, he stopped paying attention to the specific situation and focused all his energy on the research of superconducting materials.
Although the mathematical model has been completed, it does not mean that he does not need to appear in the laboratory.
Not only Connie, but also Professor Chilik said with a smile: "Of course, you should be the one to complete this job."
In this way, time passed day by day, and soon it was the end of October.
Finding the zero-dispersion energy band is equivalent to finding the Mott insulator they were looking for.
Lu Zhou couldn't resist the kindness, so he smiled sheepishly, and after thinking seriously for a moment, he spoke.
Lu Zhou couldn't resist the kindness, so he smiled sheepishly, and after thinking seriously for a moment, he spoke.
Connie:…
If I had known earlier, I shouldn't have given him the chance to name him.
Compared with Jinling Institute of Computational Materials and Sarote Laboratory, their work is mainly focused on theory, that is, looking for those two energy bands whose energy band structure is close to zero dispersion...
"What do you think of this name?"
The world of mathematics has been unexpectedly restless recently.
"In that case... let's call it SG-1."
Lu Zhou: "..."
Compared with Sir Attiyah's paper, which was not even an error, this debate is obviously more topical in the mathematics community.
Thinking about it carefully, this guy seems to have always had this style of naming.
Looking at Lu Zhou with excitement, Connie continued: "Professor, how should we name the new material?"
Professor Chiric, who was standing next to him, was also beaming with joy, but compared to Connie, he had seen a lot of storms, so he just joked with a smile.
Compared with Sir Attiyah's paper, which was not even an error, this debate is obviously more topical in the mathematics community.
"What do you think of this name?"
SG is the abbreviation of superconducting graphene. Although it can also be named by the preparation method or compound type, it is easier to distinguish it by naming it functionally.
Lu Zhou: "..."
After all, considering the stacking methods of two-dimensional materials and complex chemical processing methods, there are too many graphene materials that can be classified as N-type doped...
SG is the abbreviation of superconducting graphene. Although it can also be named by the preparation method or compound type, it is easier to distinguish it by naming it functionally.
Finding the zero-dispersion energy band is equivalent to finding the Mott insulator they were looking for.
For example, how to explain the bandgap width of a superlattice near 1.1°? For example, what order parameters should be used to describe the Mott insulator formed at this angle...
After all, considering the stacking methods of two-dimensional materials and complex chemical processing methods, there are too many graphene materials that can be classified as N-type doped...
Of course, from Mochizuki's point of view, the error pointed out by Schulz was not a problem at all.
There were quiet cheers in the SEM room of the Frick Chemistry Laboratory.
"It's N-type doping. We succeeded, Professor!"
"In that case... let's call it SG-1."
Although he was not confident at first, Lu Zhou was quite satisfied after coming up with the name.
Thinking about it carefully, this guy seems to have always had this style of naming.
In this way, time passed day by day, and soon it was the end of October.
He is quite self-aware about this.
"… What's wrong?"
There were quiet cheers in the SEM room of the Frick Chemistry Laboratory.
Not long ago, Peter Schulz and Jacob Stix jointly published a paper arguing that there are problems with the proof of inequality (1.5) in Mochizuki Shinichi's paper, and that small fixes are not enough. The entire proof process cannot be saved.
Of course, it was not enough for him to be satisfied. Naturally, he had to seek the opinions of the other two collaborators.
Lu Zhou: "..."
Finding the zero-dispersion energy band is equivalent to finding the Mott insulator they were looking for.
"What do you think of this name?"
After all, considering the stacking methods of two-dimensional materials and complex chemical processing methods, there are too many graphene materials that can be classified as N-type doped...
This sudden flattery was as unexpected as the sudden success. Lu Zhou felt a little embarrassed when he heard it, so he coughed lightly and said, "That's too exaggerated. What I provided is just a mathematical model."
Compared with Jinling Institute of Computational Materials and Sarote Laboratory, their work is mainly focused on theory, that is, looking for those two energy bands whose energy band structure is close to zero dispersion...
It was obvious that this was what they were looking for.
Not long ago, Peter Schulz and Jacob Stix jointly published a paper arguing that there are problems with the proof of inequality (1.5) in Mochizuki Shinichi's paper, and that small fixes are not enough. The entire proof process cannot be saved.
Of course, from Mochizuki's point of view, the error pointed out by Schulz was not a problem at all.
Connie:…
"… What's wrong?"
"Don't be modest. Your mathematical model will undoubtedly be of great use. If we use traditional methods to find this sample, we will be grateful to be able to produce phased results before the end of the year."
Lu Zhou's expression was a little subtle: "...are you sure you want me to name it?"
Chiric:…
This sudden flattery was as unexpected as the sudden success. Lu Zhou felt a little embarrassed when he heard it, so he coughed lightly and said, "That's too exaggerated. What I provided is just a mathematical model."
Lu Zhou: "..."
The world of mathematics has been unexpectedly restless recently.
Of course, it was not enough for him to be satisfied. Naturally, he had to seek the opinions of the other two collaborators.
"… What's wrong?"
Chiric:…
Not only Connie, but also Professor Chilik said with a smile: "Of course, you should be the one to complete this job."
Seeing that the two of them suddenly stopped talking, Lu Zhou hesitated for a moment.
First came Sir Attiyah and the Riemann Hypothesis, and then Schultz and Mochizuki Shinichi.
SG is the abbreviation of superconducting graphene. Although it can also be named by the preparation method or compound type, it is easier to distinguish it by naming it functionally.
When they applied a small gate voltage across the two-dimensional structure of the material, adding a certain amount of electrons to the Mott insulator, the individual electrons bonded with other electrons in the graphene, allowing them to pass through before they Where it cannot flow.
To be honest, his ability to choose names has never been very good.
Lu Zhou couldn't resist the kindness, so he smiled sheepishly, and after thinking seriously for a moment, he spoke.
Not only to produce results as quickly as possible, but also to use the experience gained in experiments to improve his theory. No matter what the reason is, Lu Zhou cannot leave the laboratory.
"… What's wrong?"
If I had known earlier, I shouldn't have given him the chance to name him.
I have to admit that sometimes theoretical and applied research do not conflict, especially in the field of materials science.
Connie and Professor Chilik looked at each other and made helpless expressions towards Lu Zhou.
Not only Connie, but also Professor Chilik said with a smile: "Of course, you should be the one to complete this job."
Perhaps someone will come to complete these more in-depth theoretical work in the future, or perhaps their partners will be interested in completing this follow-up work.
Perhaps someone will come to complete these more in-depth theoretical work in the future, or perhaps their partners will be interested in completing this follow-up work.
Thinking about it carefully, this guy seems to have always had this style of naming.
Not only Connie, but also Professor Chilik said with a smile: "Of course, you should be the one to complete this job."
Although he was not confident at first, Lu Zhou was quite satisfied after coming up with the name.
"It's nothing, SG-1 is just SG-1... It's just such an exciting discovery, I thought you would think of a name that sounded a little cooler."
When the temperature reaches 101K, this new material undergoes a superconducting transition as they imagined.
For example, how to explain the bandgap width of a superlattice near 1.1°? For example, what order parameters should be used to describe the Mott insulator formed at this angle...
Thinking about it carefully, this guy seems to have always had this style of naming.
As for why, he will write a paper to explain.
It was obvious that this was what they were looking for.
In short, they changed the carrier concentration of the material through N doping, and adjusted the overlapping angle of the modified two-dimensional material, and finally found the "half-filled" structure they were pursuing at a new angle.
As for why it was quiet.
From modified PDMS to HCS-2…
However, these two people obviously didn't understand him very well.
Of course, in addition to these easy-to-understand studies, there are also many more profound theoretical works in it, and there are also many problems that even Lu Zhou has not figured out how to explain.
Looking at Lu Zhou with excitement, Connie continued: "Professor, how should we name the new material?"
"… What's wrong?"
When the temperature reaches 101K, this new material undergoes a superconducting transition as they imagined.
Professor Chiric, who was standing next to him, was also beaming with joy, but compared to Connie, he had seen a lot of storms, so he just joked with a smile.
From modified PDMS to HCS-2…
The world of mathematics has been unexpectedly restless recently.
If I had known earlier, I shouldn't have given him the chance to name him.
"It's nothing, SG-1 is just SG-1... It's just such an exciting discovery, I thought you would think of a name that sounded a little cooler."
The ABC conjecture was not Lu Zhou's focus. After setting a concern label on the progress of this matter, he stopped paying attention to the specific situation and focused all his energy on the research of superconducting materials.
As for why it was quiet.
According to Lu Zhou’s mathematical model, the positions of these two energy bands were finally determined experimentally at the negative doping and positive doping of graphene’s Dirac point.
It was obvious that this was what they were looking for.
Unfortunately, compared with number theory, algebraic geometry is not Lu Zhou's strong point, let alone the unpopular one - "far Abelian geometry".
During the entire process, Lu Zhou and others continued to measure the resistance of the material while lowering the temperature of the material. They soon discovered that when the temperature dropped to 101K, the decrease rate of resistance reached an abrupt peak, and the resistance value also sharply approached zero.
Lu Zhou: "..."
"Don't be modest. Your mathematical model will undoubtedly be of great use. If we use traditional methods to find this sample, we will be grateful to be able to produce phased results before the end of the year."
"It's N-type doping. We succeeded, Professor!"
From modified PDMS to HCS-2…
"… What's wrong?"
Although 101K is also not a high temperature, relatively speaking, there is no doubt that this is an amazing result.
Thinking about it carefully, this guy seems to have always had this style of naming.
Compared with Jinling Institute of Computational Materials and Sarote Laboratory, their work is mainly focused on theory, that is, looking for those two energy bands whose energy band structure is close to zero dispersion...
Of course, it was not enough for him to be satisfied. Naturally, he had to seek the opinions of the other two collaborators.