Free Web NovelChapter 1473: Chapter 698 Direct Association Between Energy and Space
Last time’s "ground compression transmission experiment" demonstrated the existence of space and reinforced the definition of the "Voidon Hypothesis," allowing research to continue in the direction suggested by the Voidon Hypothesis.
Only with the feasibility of research in the direction of the Voidon Hypothesis could various arguments concerning Voidons proceed, and could Voidons be linked with energy.
This was content envisioned by Zhang Qican, while Zhao Yi provided assistance and expansions.
Therefore, as the head of the theoretical group, Zhao Yi decided that the experiment would be led by Zhang Qican, with the other three members assisting.
Although Zhao Yi said this, in reality, he himself was still the decision-maker, but he mainly wanted to promote Zhang Qican. It was somewhat unfair that any achievements from researching space mathematics alongside Zhao Yi would belong to him.
In addition, Zhang Qican was indeed capable of standing on his own. Perhaps for some future significant research projects, it would be Zhang Qican leading them, not always him making the decisions.
This was also what Zhang Qican deserved.
Neither Edward Witten nor Qiu Chengwen had any objections. In fact, they both hoped Zhang Qican would achieve results. In their collaborative research, they had discovered that Zhang Qican’s capabilities were certainly no less than theirs, and his mind was more agile, especially in understanding of space mathematics; he far surpassed them.
Whether it was Edward Witten, Qiu Chengwen, or Zhao Yi, they were already among the world’s top mathematicians with peak academic prestige. Naturally, they hoped that Zhang Qican, whom they were collaborating with, would also achieve considerable success.
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They were even more hopeful that the experiment would succeed, as only a successful experiment would count as an accomplishment; otherwise, it would be a failed attempt.
The new experiment aimed to verify a direct link between photons and Voidons, or rather, to verify the connection between photons and the existence of space.
Simply put, where there are photons, there is space, or more broadly, where there is energy, there is space.
This is very significant.
If the experiment yielded the desired results, it would demonstrate the inseparable relationship between energy and space and, to some extent, would also solve the problem of wave-particle duality and unravel the mystery behind the famous double-slit interference experiment.
The double-slit interference experiment is indeed very famous, so much so that it’s meticulously explained in high school textbooks. Unraveling the mystery of this experiment would definitely be an extraordinary achievement, with an impact on physics that might even surpass the discovery of black holes. In mathematics, it could be equated with solving several world-class mathematical conjectures.
This is mainly because a successful experiment would represent a cross-era major advancement in physics.
Of course, progress here is in the academic sense. When it comes to the field of science and technology, it would merely pave the way for technological development domestically, since foreign countries lack the Z-wave Generation Technology and even the conditions to perform such experiments.
The theoretical group was at the testing ground of the Z-wave team. They quickly designed the experiment.
This time the experiment took place very discreetly. They only informed the Z-wave team about the experimental arrangements without going into detail. Even Ruan Wenye thought it was just a routine transmission "blast" experiment, but with several high-energy light source devices added to the end of the transmission.
"What’s the point of this? After the explosion occurs, these devices will all be damaged."
"However, with the expansion of the channel, the force of the explosion becomes smaller and smaller, so maybe the devices will only be slightly damaged? Possibly."
Ruan Wenye was somewhat puzzled.
The design of this experiment was essentially the same as the traditional ground transmission experiment, with the only addition being several large light source devices since theoretically, Z-waves compress space, and space compression should not affect energy.
If energy were directly related to space, a sustained strong light source would generate a large amount of Voidons to fill the Voidon vacancy caused by space compression.
Naturally, without this "Voidon void," transmission would not occur.
In previous experiments, the Z-wave team had conducted several of the same type of transmission experiments. Some involved increasing the channel, while others changed the type of material at the end of the transmission. One even involved adding animals inside, and the outcome is imaginable: the poor chicks directly turned into a powdery, viscous substance that disintegrated upon contact—a truly moving sight.
To get back to the point.
A series of experiments still led to important conclusions. The experimental group found that expanding the channel could indeed reduce the transmission of tiny particles, but no matter how much the channel was expanded, the transmission of tiny particles could never be eradicated, implying that explosions will always occur.
The lowest intensity explosion had a force equal to nineteen kilograms of TNT.
"This shows that the channel has less impact on material transmission than we thought," said Ruan Wenye, who is indeed quite knowledgeable. He used an "absolute zero" analogy. "As we keep increasing the channel, overall, it is possible to reduce the transmission of tiny particles, but at the same time, it is impossible to reduce it any further."
"Perhaps having absolutely zero tiny particle transmission is akin to reaching absolute zero temperature, which is very difficult to achieve with conventional means."
"We continuously increased the channel, even by more than five times the original amount, yet the explosion force was only reduced by less than a third."
"Additionally, we must consider that the intensity of the explosion and the immediate reaction are directly related. During nuclear fusion, high-speed neutrons are stimulated, leading to spallation characteristics. The specific force of the explosion has a range, not a fixed value."
