Chapter 520

As for the specific way to implement it, this issue has been discussed at the morning meeting.

An experimental plan proposed by Gu Lu was unanimously adopted by everyone.

The theory of Gu Lu's experimental plan is very simple.

The number of electron volts in the zero-gap energy band cannot be too large or too small, and there is no 'equilibrium point'.

Under such harsh conditions, Gu Lu proposed a solution called ‘doped multi-layer graphene interconnection’.

As we all know, graphene is a single layer of carbon atoms.

The zero-gap energy band exists on this single layer of carbon atoms, and the qubits are also designed on a single layer of carbon atoms, which causes contradictions.

But Gu Lu took a different approach and proposed the 'doped multi-layer graphene interconnection' solution that was unanimously approved by everyone in the research team.

Gu Lv’s theoretical basis is as follows.

By interconnecting multi-layer graphene single-layer carbon atoms, the interconnected doped multi-layer graphene has both horizontal and vertical directions.

In the horizontal direction, that is, the direction in which a single layer of carbon atoms is spread out, the qubit exists.

In the vertical direction, or in the direction in which a single layer of carbon atoms is superimposed, the conductivity of the graphene material is achieved by adjusting the size of the zero-gap energy band.

When Gu Lu's plan was first proposed at the meeting, everyone in the research team burst into applause.

Because Gu Lu's plan is no less stunning than the new plan using a superconducting microwave resonator in the previous topic.

The single-layer carbon atom structure of graphene makes it only have horizontal planes and no vertical planes, which results in all phenomena can only occur on the horizontal plane, and all conditions can only be realized on the horizontal plane. Once the conditions for the two characteristics are realized, the

When there is conflict, it is easy to feel helpless.

But Gu Lu's plan seemed to open the door to a new world.

Since graphene has no vertical surface, we artificially create a vertical surface.

Through the interconnection of multi-layer graphene carbon atoms, graphene can have both horizontal and vertical planes.

At this time...

When two conditions are contradictory, it is completely possible to realize one condition on one side, and then realize the other condition on the other side!

For example, now, when there is a conflict in the size of the zero-gap energy band on the graphene chip, Gu Lu's solution is to increase the value of the zero-gap energy band of graphene on the horizontal plane, making the structure of the qubit simpler.

.On the vertical plane, the size of the zero-gap energy band can be adjusted so that it has the conductive properties of semiconductor materials.

In everyone's opinion, this plan is quite feasible, and it is also the most suitable one among the three or four experimental plans proposed by everyone at the meeting.

Therefore, to solve the zero-gap band problem, Gu Lu’s scheme of ‘doped multi-layer graphene interconnection’ was adopted.

Of course, this plan has many difficulties, and everyone needs to overcome them one by one.

The most difficult part is how to realize the interconnection of doped multi-layer graphene.

Regarding this issue, Gu Lu, the proposer of the plan, also did not have an accurate plan and could only continue to explore through experiments.

"Zhang Hong, I leave this to you to calculate the electron volts of the zero-gap energy band in the horizontal and vertical planes after doping multi-layer graphene interconnections. Sun Li, you are mainly responsible for the calculation of the electron volts after doping interconnections.

Simulation of the size and performance of multi-layer graphene, as well as the number of graphene carbon atoms that need to be interconnected, and Jiang Hai, over there..."

"As for Ke Bo, you and I are responsible for figuring out how to realize this interconnection structure of doped multi-layer graphene."

In the laboratory, Gu Lu assigned tasks one by one.

The realization of the doped multi-layer graphene interconnection structure was the most difficult part, so in addition to himself, Gu Lu also asked another person in the research team to assist him.

Ke Bo is thirty years old this year. Although he is not very old, he has already obtained the title of full researcher and is one of the more gifted researchers.

Moreover, Ke Bo has profound knowledge in materials physics, which can be seen from Gu Lu's previous experimental project.

Therefore, Gu Lu chose to let Ke Bo work with him to realize the interconnection structure of doped multi-layer graphene.

After the task assignment was completed, the six members of Gu Lu's team went to their respective stations and started working.

The second phase of research work is in full swing.

…………

At the same time, more than 100 people in the entire semiconductor quantum chip project team also learned through various channels that Gu Lu and An Yu had achieved results.

Everyone in the project team was instantly envious.

Especially the members of the research team are extremely envious.

Look at people.

My days are extremely leisurely, not only do I have to work overtime, but I also get results so quickly.

And what about them?

Not only do I have to stay up late and work overtime in the laboratory every day, but even with such crazy overtime, it is still unknown when the experimental results will be produced.

Just a simple comparison, everyone instantly became autistic.

The difference is really too obvious.

This feeling is equivalent to that you worked hard to study for the exam and only got 80%, while the classmate sitting next to you just flipped through the book before the exam and got a perfect score.

The chicken drumsticks in the lunch box in front of me suddenly lost their flavor.

Everyone expressed envy of the real-name system for the ten people in the third research team under Gu Lu and An Yu.

After hearing the news, the leaders of the research group were stunned for a moment, and then, just like Ai Liang showed, they were obviously stimulated.

Gu Lu and An Yu were the first to make experimental results before everyone else, which was something no one expected.

The tasks Gu Lu and An Yu were responsible for were not easy.

Everyone originally thought that although the research team of Gu Lu and An Yu would not be the last to produce results, it would definitely not be the first!

But the current result is this. The third research team of Gu Lu and An Yu was the first to achieve results.

These project team leaders were all proud people, and of course they would not succumb to others, so they immediately called their staff to hold a small meeting and poured a lot of chicken soup impassionedly, which greatly increased everyone's enthusiasm for work.

Therefore, under the stimulation of this incident, the overall progress of the entire project team was indeed promoted a lot in a short period of time.

Overtime hours have been extended again, and even all-nighters have occurred in some research groups.
Chapter completed!