Chapter 197: This problem needs to be solved by a physics professor
Liu En's sweat came out at once.
Report a problem?
Of course there is something wrong with the report.
Anyone who has stayed in the laboratory knows that there are too many logical problems in this report, and it is not rigorous at all.
The most important thing is that this report did not explain the principle of carbon crystal storage at all, but directly gave an unreliable result to carbon crystal storage.
As a scientific and technological worker, Liu En is unable to accept it.
But as a researcher in the laboratory, Fisher's student, a Xia Guoren who ranks low in the laboratory, and a Xia Guoren who is eager to get a green card, Liu En can only obey and say: "There is nothing wrong with the evaluation report."
Fisher nodded and said, "No problem, let's print it out."
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 such a powerful carbon crystal storage?
But nothing is mentioned in the report.
After Professor Fisher arranged things for Liu En, he was chatting with the members of the experimental team.
Liu En heard their chat clearly.
Although Fisher was critical of carbon crystal storage in the report, and completely denied the performance of carbon crystal storage.
But in fact Fisher's heart is still extremely shocked.
He is repeatedly asking the experimental group if there is more experimental progress, and asking the experimental group to refer to Sony's cutting experiment in detail to see if it can be used for reference.
However, the experimental team's answer to Fisher made him very disappointed.
Stanford University Semiconductor Laboratory has the world's most advanced experimental equipment, and also has the world's best semiconductor and integrated circuit talents.
But all people have no way to store carbon crystals.
Fisher only rudely said to the members of the experimental team, "I only have to store the carbon crystals and send them to the physics lab."
Problems that cannot be solved from a computer point of view can only be sought for the help of physics professors.
Fisher's team determined that the color center in the crystal is the key to storing the data after watching the launch of the tower technology in detail and repeatedly.
This involves the field of crystal physics, a knowledge blind spot for Fisher's team.
In desperation, Fisher had to hand over the relevant experimental materials and data to the Crystal Physics Laboratory of Stanford University.
The research areas of Stanford University's Physics Laboratory are very finely divided.
One of them is an experimental group that specializes in 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 Chels, who is in charge of the project, is an expert in the field of physical and chemical materials.
Today, the weather in California is very sunny.
The warm sun in winter brings more vitality to the campus.
Chelsea leisurely made a cup of coffee in his office.
He saw Fisher come over and was very happy to give him his cup of coffee.
"Old man, why are you free to come to my office today? I heard that you have been very busy recently."
Fisher and Cheles have been good friends for many years, and in recent years, many new physical materials have been applied in the field of computers.
The two have collaborated on this.
Fisher was not in the mood to joke with Chelsea, nor was he interested in the cup of coffee on the table.
Fisher hadn't had a good night's sleep these days.
The matter of carbon crystal storage is like a dark cloud looming over his mind all the time.
Fisher handed Chelsea the data on the carbon crystal storage.
"This is an application of a new material that replaces some of the carbon atoms in the artificial diamond with silicon atoms and creates small voids in the crystal that trap electrons under the action of the laser, and the mats remain A stable state that won't escape by itself."
When Fischer mentioned silicon atoms replacing carbon atoms in artificial diamonds and the capture of electrons, Chelsea's expression turned serious.
Chelsea eagerly took the report that Fisher handed over.
This report is completely different from what Liu En saw some time ago.
The report describes in detail all the properties of the 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 said, "Has your team studied this project?"
"Our team stumbled upon color centers in diamond crystals 10 years ago, designed to capture electrons and, of course, to store data," Chels said earnestly.
"We also published an immature paper in response to this discovery, and also contacted the bank, 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 in size and more advanced in technology."
Chelsea added: "I can see from the report you gave me that they also replaced some of the carbon atoms in the artificial diamond with silicon atoms, which is a very clever design that increases the stability of the crystal and the resistance to the laser. Sensitivity."
Hearing Cheles say this, Fisher broke down in cold sweat.
In this way, Changtian Technology's products are quite advanced.
Chelsea shook his head again and said, "It's easier said than done to replace existing semiconductor chips with the design principles in carbon crystals, but easier said than done?"
"Our experimental team spent three years trying to store some data in the color center of the carbon crystal, but it all ended in failure."
Chelsea smiled bitterly and said, "It took us three whole years, but we couldn't even put 1KB of data in it."
"This kind of idea of ??yours is very good. If it can be realized, it can indeed make computer technology develop by leaps and bounds. UU Kanshu "
Chels thought Fisher's report was just a semiconductor idea.
After all, in the semiconductor laboratory, his team often has some fantastic ideas, and comes to discuss with other professors whether these ideas can be realized in physics or materials science.
But Chelsea looked at Fisher's expression as if something was wrong.
He smiled and asked, "Am I wrong?"
Who knows that Fisher said very bitterly, "Old man, this is not an idea, but a technology that has been realized."
Hearing Fisher say this, Chelsea became serious, "You mean that your semiconductor laboratory has successfully realized the crystal color center to store data?"
"You guys are so amazing? If the research on this technology is successful, it is very promising to apply for the Nobel Prize!"
Chelsea was excited now.
Who knows that Fisher said helplessly: "This is not our technology."