Chapter 197 This problem needs to be solved by a physics professor
Liu En's sweat broke out immediately.
Report a problem?
Of course there is something wrong with the report.
Anyone who has spent time in a laboratory knows that this report has too many logical problems and is not rigorous at all.
The most important thing is that this report did not explain clearly what the principle of carbon crystal storage is, but directly made an unreliable conclusion about carbon crystal storage.
As a scientific and technological worker, Liu En could not accept it.
But as a researcher in the laboratory, a student of Fisher, a Xia native with a relatively low ranking in the laboratory, and a Xia native who was eager to get a green card, Liu En could only obey and said: "There is nothing wrong with the evaluation report."
Fisher nodded and said, "No problem, let's print it."
Liu En originally wanted to explore the principle of carbon crystal storage from the report.
He himself also wanted to know how a newly established Xiaguo Technology Company developed carbon crystal storage with such powerful performance?
But nothing was mentioned in the report.
After Professor Fisher arranged things for Liu En, he was chatting with members of the experimental team.
Liu En clearly heard the content of their chat.
Although Fisher was critical of carbon crystal storage in his report, he completely denied the performance of carbon crystal storage.
But in fact, Fisher was still extremely shocked.
He repeatedly asked the experimental team if there was any more experimental progress, and asked the experimental team to refer to Sony's cutting experiment in detail to see if it had any reference significance.
However, the answer given to Fisher by the experimental team still disappointed him.
The Stanford University Semiconductor Laboratory has the world's most advanced experimental equipment and the world's best semiconductor and integrated circuit talents.
But everyone has nothing to do with carbon crystal storage.
Fisher had no choice but to say to the members of the experimental team, "I can only send the carbon crystal to the physics laboratory."
For problems that cannot be solved from a semiconductor perspective, the only option is to seek help from physics professors.
After watching Santian Technology's press conference in detail and repeatedly, Fisher's team determined that the color center in the crystal is the key to storing data.
This involves the field of crystal physics, which is the knowledge blind spot of Fisher's team.
In desperation, Fisher had no choice but to hand over the relevant experimental materials and data to the Crystal Physics Laboratory of Stanford University.
The research areas of the Stanford University Physics Laboratory are very finely divided.
Among them is an experimental group that specializes in researching new materials.
At the end of last year, the laboratory also specifically proposed the application prospects of graphene.
So far, graphene has not been produced in the laboratory, but its properties have been proposed through theoretical models.
Professor Chelsea, a well-known American expert in the field of crystal material physics and chemistry, is responsible for the project.
On this day, the weather in California was very sunny.
The warm sunshine in winter brings more vitality to the campus.
Chelsea leisurely brewed a cup of coffee in his office.
When he saw Fisher coming over, he happily gave him his cup of coffee.
"Old man, why are you free to come to my office today? I heard that you are very busy recently."
Fisher and Cheers have been good friends for many years, and in recent years, many new physical materials have been used in the computer field.
Both of them cooperated in this regard.
Fisher was in no mood to joke with Chelsea, nor was he interested in the cup of coffee on the table.
Fisher hasn't had a good night's sleep in the past few days.
The matter of carbon crystal storage has been shrouding his mind like a dark cloud.
Fisher handed Chelsea the relevant information on carbon crystal storage.
"This is an application of a new material. Silicon atoms are used to replace some of the carbon atoms in artificial diamonds, and some small gaps are created in the crystal. These small gaps can capture electrons under the action of laser, and the mat will remain
A stable state will not escape on its own."
As soon as Fesl mentioned the substitution of silicon atoms for carbon atoms in artificial diamonds and the capture of electrons, Chelsea's expression suddenly became serious.
Chelsea eagerly took the report handed over by Fisher.
This report is completely different from the one Liu En saw some time ago.
The report describes in detail all the properties of carbon crystal storage, as well as the microscopic state after cutting.
Seeing Chelsea's expression, Fisher couldn't help but ask: "Has your team ever studied this thing?"
After a while, Chelsea closed the report and asked, "Why are you doing this project?"
Chelsea said very seriously: "Ten years ago, our team accidentally discovered that there are color centers in diamond crystals. The color centers can capture electrons and of course can store data."
"We have also published a less mature paper on this discovery, and have also contacted Intel, hoping to change the development process of chips through this discovery."
"Let the chip no longer use crystalline silicon as a carrier, but use artificial diamonds that are faster, smaller, and more advanced in technology."
Chelsea added: "From the report you gave me, I can see that they also used silicon atoms to replace some of the carbon atoms in the artificial diamonds. This design is very clever and increases the stability of the crystal and its resistance to lasers."
Sensitivity.”
Hearing what Chelsea said, Fisher broke into a cold sweat.
In this way, Changtian Technology's products are already quite advanced.
Chelsea shook his head again and said: "Replacing existing semiconductor chips with the design principles in carbon crystals is very easy to say, but easier said than done?"
"Our experimental team spent three years trying to store some data in the color center of carbon crystals, but ultimately failed."
Chelsea smiled bitterly and said: "We spent three years, but we couldn't even put 1KB of data in."
"This idea of yours is very good. If it can be realized, it will indeed lead to a rapid development of computer technology."
Chelsea thought the report handed over by Fisher was just a semiconductor idea.
After all, in the semiconductor laboratory, his team often has some wild ideas, and comes to discuss with other professors whether these ideas can be realized.
Scientific research is inherently based on the game between assumptions and facts.
But something didn't seem right about the look on Chelsea's face when he looked at Fisher.
He smiled and asked: "Am I wrong in what I said?"
Unexpectedly, Fisher said very depressedly, "Old man, this is not an idea, but a technology that has been realized."
Hearing what Fisher said, Chelsea immediately became serious, "Are you saying that your semiconductor laboratory has successfully implemented the crystal color center to store data?"
"Are you so awesome? If this technology is successfully researched, it would be very promising to apply for the Nobel Prize!"
Chelsea was excited now.
Unexpectedly, Fisher said helplessly: "This is not our technology."