From black technology to super engineering

Chapter 109: Immature Conjecture

Hidden variable theory is a hypothesis put forward by Einstein against the uncertainty of quantum mechanics.

There is a very famous saying "God does not play dice", which means that Einstein did not believe in the inaccurate set of quantum mechanics, Heisenberg, and he believed that there must be a formula that people have not discovered to fully explain all objective measurements evolutionary behavior, thereby avoiding randomness.

For example, the uncertainty principle of quantum mechanics is because there is a theory or formula that has not been discovered, so you are not sure, not that uncertainty is the basic nature of quantum.

And this undiscovered theory and formula are hidden variables.

For this reason, Einstein and Bohr argued for a long time without any results.

It was not until Bell, who supported Einstein's theory, came forward and proposed a powerful mathematical inequality.

This is the famous Bell's inequality.

In the ensuing decades, based on the idea of ​​Bell's inequality, the scientific community conducted several experiments, each time more stringent and with harsher conditions, but each time the results proved that in quantum mechanics, Bell's inequality does not hold.

In other words, God just rolls the dice.

...

Ye Ming looked down the stage.

The professor smiled apologetically at Ye Ming, and his eyes were filled with eagerness.

Not only him, everyone present, including Professor Tang and Professor Pan, also wanted to know Ye Ming's answer immediately.

Because if Ye Ming's so-called hidden variable is Einstein's set of theories or rhetoric, then there are really too many things to overthrow...

Among other things, Bell's Inequality certainly won't survive - but Bell's Inequality is a proven mathematical formula!

Unless you talk about experiments done with Bell's inequality, the results are all determined by hidden variables.

So what is the difference between this and God's set?

so……

Ye Ming smiled slightly.

"no."

Hearing his words, there was a sound of exhalation from the audience.

fine.

"This hidden variable is not so much a hidden variable as a hidden variable field. Because in the hypothesis, I introduced gravitons."

"It's just that this graviton is not the boson with spin 2 and mass zero, but the graviton after passing through space-time."

"I don't know how to explain it... In M theory, gravity can travel through time and space. But I think that even if you don't follow M theory, gravity can travel through time and space. It is not a theory, but a fact. The same Yes, I also think that it should be a fact that there are high-dimensional spaces and even parallel spaces that are not string theory."

As soon as this remark came out, there was another uproar below!

But no one asked any more.

Because asking... is actually questioning.

As for doubts, it is not too late to wait until he finishes speaking.

"In order to correspond to the gravitational wave that crosses dimensions, I assume that this wave is called a dimensional wave." Ye Ming clicked the mouse, and an imaginary picture of a wave with a very high frequency was immediately cut out on the screen: "It can carry information, and at the same time It can also resonate with electromagnetic fields—hence, the dimensional wave, we can also call it the God wave.”

"Of course, this is all an assumption to satisfy the imaginary model."

"But when I introduced the dimensional wave, I found that the elementary particle model, especially the motion model, looks more perfect."

"Therefore, I started to solve the conditions for the generation of dimensional waves. Unfortunately, the tools were insufficient, and the solution I found was a huge space-time bending solution, which is the solution of general relativity."

"The validity of general relativity on a macrocosmic scale is beyond doubt."

Hearing this sentence, everyone in the audience relaxed a little.

"But what I want to seek is the conditions of gravity at the microscopic scale. After I couldn't get the answer, I started from space, so through the mutual interference of field waves in space, I accidentally obtained a set of very magical solutions. A miraculous phenomenon has been discovered."

Ye Ming pursed his lips, his eyes gradually brightened.

"It is an array of electromagnetic waves in a specific space after interference with specific frequencies and wavelengths. It is amazing and can drive molecules and even confine particles."

"This is some of my immature conjectures before the experiment was born."

...

Ye Ming exhaled softly and looked down the stage.

Although he has been talking about conjectures, he has been saying "uncertain, immature", and even brings words such as high-dimensional and parallel spaces that generally do not appear in experimental physics.

But his conjecture is based on facts.

The fact is that according to traditional and existing theories, it is impossible to explain his "simple" experiment that has been reproduced by countless laboratories.

The entire conference room was silent, and after a while, applause broke out.

But this applause is only a courtesy.

In the next second, countless hands were raised high.

"The teacher in white clothes in the first row."

Ye Ming looked at these teachers, as well as the youngest audience who had a doctor's eye. He was a little shy and at a loss, so he had to call them one by one.

"Hi Ye Ming, I'm Lu Shouxian from Theoretical Physics of Provincial University."

"Hello, Mr. Lu."

"It's like this. You said that your conjecture about the dimensional wave comes from the gravitational force that spans dimensions and spaces—then, does this dimensional wave necessarily cross dimensions? Or..."

Professor Lu Shouxian is in his early fifties this year, and he is in the prime of life. He glanced back at the crowd and then at Ye Ming with burning eyes: "If it can span space, it can completely explain the action at a distance, such as information transmission in quantum entanglement." hidden variable."

"Well... at the moment I don't think it can be used to explain action at a distance, because I haven't found a solution that meets the Planck scale."

...

Following Ye Ming's roll call, in the audience, Professor Pan, who had always been sitting comfortably, glanced at "Lunzi", and he gently touched his friend beside him.

"Can it be me?"

Professor Tang Zhigao had already narrowed his eyes with a smile, and said with a chuckle, "Is there anyone stopping you?"

Professor Pan smiled and shook his head, then raised his hand.

On the stage, Ye Ming took a sip of water, and when he saw that Professor Pan next to Old Tang also raised his hand, he quickly put down the bottle.

"Hello, Academician Pan."

"Hello Ye Ming, I would like to ask, how does the field you mentioned that confines particles achieve the capture of entangled particles—or light quanta? Or, the state of the entangled state example after capture Will the change affect the constraints?"

After asking, Professor Pan looked at Ye Ming expectantly.

Then, the rest of the people looked at him too.

No matter whether the person here is engaged in materials or purely in physics, he knows that when he asks this question, he must want to apply the electric field that confines particles to an optical quantum computer.

If it can be done, it can definitely change the pattern of existing quantum computers!

Ye Ming exhaled lightly, then nodded with a smile.

It was originally a circuit modified by the light quantum confinement well...

In other words, this is simply the qubit unit of the optical quantum computer!

How could it not be applicable?

"Theoretically, the design can be done without any problems."

Tap the screen to use advanced tools Tip: You can use left and right keyboard keys to browse between chapters.

You'll Also Like