"Now that transmission has occurred, it proves that particles under special conditions, being squeezed by special states of voidons, have undergone ’energization’."
Edward Witten integrated so relevant theories of Spatial Connection Technology into M Theory because there exists a high-dinsional space that acts as a transfer station for Spatial Connection Technology.
According to his theory, whether energy or particles want to complete spatial transmission, they must first be transferred to a high-dinsional space, and then expelled by the high-dinsional space, returning to the other end of the link.
This view is consistent with basic spatial mathematics and fundantally cannot be refuted.
In fact, the main reason is the lack of basic spatial theory, and the definite spatial mathematics is very limited, which allows for many interpretations of experintal phenona that are consistent with basic theory.
It’s just like the original cosmological theories, where the Big Bang theory is only one of them, and string theory of course is another.
All these have not been proven and are consistent with the frawork of basic theory; no one can be one hundred percent certain that the theory is incorrect.
Qiu Chengwen does not believe in string theory; the only thing he believes in is energy conservation.
His research also mostly starts from energy conservation and he raised a question, "Address transmission must consu a lot of energy, much more than energy transmission, so what is the source of this energy?"
"I believe that, at the most fundantal level, matter and energy may be identical."
This statent is in line with the Boundary Theory of particles.
Zhao Yi believes that space’s repulsion of matter originates from its repulsion of mass points, and the definition of mass points, binary Nth power positions, is rely the digitized representation of energy points.
Qiu Chengwen believes that matter and energy are identical, using this to explain the particle transmission phenonon observed in experints.
It’s the sa principle as water flow impacting stones.
When a stone drops into a river, it doesn’t flow with the water, but when the current is very strong, it can cause the stone to roll.
The stone represents matter.
And sothing that can flow with the water or even dissolve in it can be likened to energy.
From this example, it can be seen that energy and matter may be identical, only differing in ’mass’ level, which is why they exhibit different properties.
Zhao Yi leans more towards Edward Witten’s viewpoint, not because he agrees with his idea of a high-dinsional transfer station, but because he believes that particles are energized during the experintal process.
This is mainly because Qiu Chengwen’s statent has so fundantal contradictions.
For example, the energy problem.
Qiu Chengwen’s statent will definitely involve intelligent equations and bringing in the mass-energy equation leads to questions about the source of energy.
Clearly, the energy provided in experints is not enough to support the particle transmission.
Of course.
This does not completely negate Qiu Chengwen’s statent since particle transmission may not necessarily consu energy.
For example, on Earth, when an object moves to another place at the sa altitude, there is no change relative to the entire Earth.
There’s no change in potential energy, no change in mass, and no overall energy change.
But obviously, moving an object to another place requires energy.
It’s the sa with material transmission; relative to the entire universe, whether a piece of matter exists here or there, the energy of the universe doesn’t change.
So particle transmission may not necessarily consu energy.
In conclusion, in the absence of foundational theories, every explanation has so rit and cannot be directly dismissed.
But it can be affird that Qiu Chengwen’s statent is very dangerous, aning his interpretation of the experint could lead to so uncontrollable situations.
Edward Witten’s statent is relatively much safer.
If it’s just particles being turned into energy, then uncontrollable accidents won’t occur, and the impact of the experint will be limited to a certain extent.
Now what they need to discuss is the issue of the experintal risk level.
They are conducting an assessnt.
Only when the danger assessnt is passed can an application to conduct experints on the ground be made.
This is quite important for the theoretical team, none of them want to wait for ten months, and you think waiting for ten months is also aningless because the residues on the Mars-1 spacecraft might not necessarily explain anything.
If experints can be conducted on the ground, a large amount of useful information can be obtained, which is essential for the perfection of the theory.
To conduct experints on the ground, the danger must be reassessed.
----
It is very difficult to prepare a danger assessnt report, as no one can guarantee that there won’t be any uncontrollable accidents during the experint, so all we can do is ensure safety as much as possible.
Zhao Yi is doing this. He is not sure whether uncontrollable accidents will occur during the experint, but one thing is certain—
The anti-energy barrier can provide safety protection.
The biggest problem during the experint is that the device that activates the anti-energy barrier is located inside the barrier itself. If a violent explosion or other dangerous accidents occur inside, the device could be damaged, and the anti-energy barrier would fail to maintain.
Therefore, Zhao Yi is considering constructing an experintal environnt that is completely surrounded by an anti-energy barrier, with the device that activates the barrier located on the outside.
As long as the experint is completely contained within the anti-energy barrier and does not affect the device that activates it, safety can be ensured.
"What should be done?"
Zhao Yi quickly ca up with a thod after so thought.
The current anti-energy barrier technology is far from mature, and the use of anti-energy barriers largely relies on the anti-gravity system. With Zhao Yi, it is different; he has a thorough understanding of the principles of the anti-energy barrier and can design special devices to release the barrier.
The nuclear fusion device is designed this way.
The continuous anti-energy barrier inside the fusion device is not a complete circle but has a certain gap, which allows the heat to be transmitted.
Zhao Yi is now preparing to design a one-sided anti-energy barrier, but his design is not about making the barrier only one-sided; instead, there is a short passage ford behind it.
The shape of the entire anti-energy barrier is like an irregular wall in the front, connected by a narrow line in the back.
The reason for this design is that a one-sided anti-energy barrier is simply impossible to create.
The topological form of the anti-energy barrier must be circular, whether it is a flat circle or a three-dinsional sphere.
So there’s bound to connect behind the "wall".
With such design, an anti-energy barrier can be created that can use several to enclose a complete space while keeping the device that activates the anti-energy barrier on the outside of the space.
This new anti-energy barrier activation device has a relatively complex internal design.
Zhao Yi took more than three days to design it. He thought this was a long ti because it was just an anti-energy barrier activation device, and designing it had consud so much ti, whereas in the sa amount of ti, he could have designed two functional space shuttles.
After completing the design of the one-sided anti-energy barrier device, Zhao Yi directly submitted an experintal proposal, explaining that a matter transfer experint would be conducted on the ground.
Also submitted was a new danger assessnt report.
The latter was submitted together by the theoretical team, who believed the danger of matter transfer would be limited to a small-scale nuclear fusion explosion, and as long as it took place in a vast open area with certain safety asures, it wouldn’t pose too much risk.
Having had the experience of one experint, those who participated also knew the extent of the explosion; even the Mars-1 spacecraft didn’t have any problems, so the report was quickly approved.
Then ca the application for the experintal project.
Zhao Yi’s application for the experintal project requested a budget of two billion yuan, half of which would be used to manufacture special anti-energy activation devices.
The application report quickly reached Director Liu of the Science and Technology Departnt. Director Liu looked at the report and imdiately agreed, then continued to submit it further up.
It was only after everything was busy that Director Liu realized, "Why was it approved directly?"
"This is a huge project of two billion!"
He then smiled wryly, "It seems I’ve grown accustod to it, as projects applied for by Academician Zhao always involve ’billions’. Compared to projects costing tens of billions, two billion is just a small sum—"
"Sigh!"
"Habit, it’s really terrifying!"
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