But as an academician, as the most famous professor in the entire conference room and with the highest academic reputation, he showed great reserve.
After nodding, Professor Pan smiled again: "Can I still ask?"
Ye Ming grinned: "Of course."
"Then let me ask one more question, can you write down your formula?" Professor Pan paused and said, "I believe you must know your formula better than all of us here, but I am just purely interested in it."
curious……"
When the others heard Lao Pan speak, they also laughed and looked expectantly.
Ye Ming coughed lightly and smiled sheepishly: "Academician Pan, teachers... don't dare to give it."
"Not satisfying your curiosity?"
"An imperfect formula, when supported by correct conclusions, will have profound or even very bad effects." Ye Ming said sincerely and frankly: "Even if it can help with brainstorming, I don't think it can."
offset those effects."
"Yeah... that's right." Professor Pan smiled and nodded: "After all, a bottom-level framework theory does need to be mathematically provable and rigorous."
As he spoke, he glanced at his colleagues around him and continued: "Besides, you have also stated your guesses and inference process. Starting from this aspect, coupled with verifiable experiments, I think it will be of great help to propose a new theory."
Helpful.”
Ye Ming nodded gratefully.
Now that Professor Pan has reached this point, Ye Ming has also shown a strong reluctance to come up with unproven formulas. Later, everyone avoided this topic and instead discussed more about the application direction of new materials.
, and whether it can be expanded to more materials in the same way.
But unfortunately, because Ye Ming's own formula is not perfect, he cannot find more effective solutions. Therefore... to expand to other material fields, you have to rely on ambiguity.
Fortunately, the GTRGB material itself is a sufficiently high-level topic - it has now been proven that it can be used in nerve connection and repair. What about the affinity of other structures? Or can the material become the basis for other materials?
…
After the academic meeting, Ye Ming followed Lao Tang and Professor Pan back to the office.
As soon as he entered the door, Professor Pan couldn't wait to sit in front of Ye Ming: "Tell me how you designed your experiment."
Professor Tang poured him a cup of tea and said with a smile: "Brother Pan, why are you in such a hurry? Why don't you eat first?"
"What kind of meal are you having at half past five?" Professor Pan glanced at his watch, and his eyes fell on Ye Ming without moving.
Ye Ming couldn't help but smile. He was also a person who was not procrastinating. He immediately took out his notebook, opened CAD, and then turned to Professor Pan.
"Particle confinement trap design drawing."
Professor Pan's eyes lit up and he immediately put his notebook on his lap.
However...the next second, Professor Tang pulled up a chair and sat next to him, looking at him with a half-smile.
"Brother Pan, is that all you see?"
"Otherwise we still need to use a magnifying glass?"
"I mean... look at the accuracy of the model." Professor Tang pointed at the CAD page.
Professor Pan followed his hand and counted. Although he saw a string of zeros, when he saw the nm unit behind it, his pupils shrank instantly!
"Two millimeters?"
"Almost, so you understand what I mean." Professor Tang said leisurely: "Although I am asking you to do an experiment, and it must be carried out in a proportional amplification mode. But once the verification is successful and the design is feasible, you will know what this means.
What are you wearing?"
Professor Pan took a deep breath instantly.
Of course he knows what this means.
The current optical quantum computer... Although China is the first in the world to break through the entanglement of 18 optical qubits, which is considered advanced, in terms of the optical quantum computer itself, or its ontology, it is still a laboratory project.
If I have to use a metaphor, it is similar to early transistor computers.
It takes up a room.
If such a quantum computer is to be commercialized... there is a long way to go.
And the particle confinement trap in front of us...
In theory, it could shrink a quantum computer to the size of a suitcase!
"Just say what you want!" Professor Pan said directly without raising his head.
"It's definitely too early to talk about commercialization, and talking about money hurts feelings." Professor Tang said with a smile: "Well, once it's done, I want one."
Professor Pan immediately raised his head: "Are you crazy? Don't you know how troublesome it is to do this?"
"You don't know how valuable this is?" Professor Tang pointed at the screen without being angry at all.
"...then you will do it?"
"Would it trouble you if I could do this? Academician Pan, you have such a big heart." Professor Tang kept blinking: "Think about it."
"You don't have a clue now, how can I think about it? You don't even have any chickens. You grab a handful of feed and give it to me, and you ask me for eggs?"
"Boss Pan." Professor Tang said with a smile: "This is a design that allows quantum computers to go out of the laboratory and enter thousands of households."
Hearing this, Professor Pan raised his head again and sighed slowly: "Old Tang, even if you can get out of the laboratory, it's still a little early to talk about replacing classical computers. Quantum computers... It's not like you don't understand. There's a long way to go.
It’s hard to get up.”
"Did you hear that?" Professor Tang looked up at Ye Ming: "This is what our quantum computer experts are saying. You will never hear it outside."
Ye Ming: "..."
Professor Pan was slightly startled. He glanced at Ye Ming, then looked at Professor Tang, and frowned slightly: "What do you mean?"
"This young man really wants to apply quantum computing to classical scenarios."
Professor Pan looked at Ye Ming and smiled generously: "Ye Ming, this vision is very good. But..."
As he spoke, Professor Pan pointed to the drawing: "Even if we can cooperate with improved technology to condense the entire quantum circuit to a matching level, the current upper limit of entanglement is only 18 light quanta... And what quantum computers lack most now is algorithms.
.”
"The problems that quantum computers can solve have been defined a long time ago. We call them BQP - bounded-error quantum polynomial time. The corresponding problem is the BPP problem of classical computers. Is there any logical connection between these two problems?
The intersection or inclusion relationship is still very uncertain. After all, classical computing is not comparable to quantum computing in terms of technical foundation and scale."
Ye Ming nodded and hummed slightly.
But after a moment, he whispered again: "Academician Pan, I don't know much about quantum algorithms, but..."
"Say." Academician Pan looked at him with encouraging eyes.
Ye Ming paused and looked at Professor Tang again: "I have an immature idea."
As he spoke, he breathed out softly.
"It is true that the most wonderful aspiration of quantum computers lies in the exponential increase in computing power of qubits in the entangled state and the birth of information and logic. It can cause qualitative changes without even relying on quantitative changes. After all, it is an exponentially divergent system."
"For example, now there are 18 light quantum entanglements. Theoretically, only 18 confinement wells are needed, right?"
"Yes."
"But what if we regard 18 light quanta as a set of computing modules, and then create countless such sets?" Ye Ming's eyes were bright: "One hundred thousand, one million, tens of millions?"
