Free Web NovelChapter 1238: Chapter 597: What is This? Super High-Temperature Superconducting Materials?_1
Particle state degradation can be simply understood as the limited maximum speed of particles; any particle with mass is affected.
When this effect occurs, scholars and experts will immediately think of the time issue.
Although particles are microscopic matter, imperceptible in daily life, they are the building blocks of everything. When the state of particles is affected, all matter will be influenced by the particles.
This will definitely affect human perception of time, as well as some mechanical operations.
Take digital watches, for example.
The speed of the electric current inside a digital watch, which primarily relies on electron functions, will be affected since electrons are particles with mass. Once the speed of electrons is limited, the operation of the digital watch will definitely be impacted. However, the effect is very weak because the difference between the speed of light and half the speed of light is not significant; both speeds are almost imperceptible, and the impact on the operation of a digital watch is minimal as long as the speed of the current transmission exceeds the perceptual range.
However, there certainly is an impact. For instance, under the effect of a spatial barrier exceeding ninety-nine percent strength, an ordinary digital watch operating for a month would slow down by about one second. frёeweɓηovel.coɱ
Additionally, human perception of time will be affected.
Human cells, compounds, proteins, etc., all consist of particles, and the speed of particles determines the foundation.
If the maximum speed of particles is limited, say to fifty percent of the speed of light, the nervous system’s transmission will be slightly impacted, thereby affecting nerve response speed.
But again, the impact is minuscule.
When the maximum speed of particles is limited, it will affect the mechanical operation and the perception of time, but in reality, claiming it is ’controlling time’ starts to border on philosophical discourse.
Consider a simple particle; in physics, there is a notion that circling Earth affects time.
Upon careful consideration, this can also be understood.
For example, circling the Earth in two hours.
For people on the plane, it’s merely two hours spent on the flight; for people on the ground, it’s also just two hours passed. What really changes is the defined time, but the perception of time for both remains the same, each thinking two hours have gone by.
There are many similar examples.
As long as the perception of time is the same, time does not change, and the association of particle degradation with controlling time can only occur in semi-philosophical discussions.
Because space cannot absorb energy indefinitely and cannot directly absorb neutrons, protons, or quarks, it is decided that even the strongest spatial barriers cannot achieve one hundred percent efficacy. It is also determined that the spatial barrier’s effect on particles has a limit; even if it is infinitely close to that limit, the impact on human perception remains negligible.
Therefore, considering particle state degradation to control time can only exist in imagination.
Setting aside the issue of affecting time, the paper on ’particle state degradation’ had a profound impact when published.
It was a startling discovery that overturned the physics community’s previous understandings and could even directly challenge the authority of Einstein’s Theory of Relativity.
The discovery was also easy to prove.
Many organizations started researching anti-gravity technology and were able to test the maximum speed of particles in an anti-gravity environment. Therefore, almost no one doubted Zhao Yi’s discovery, and many organizations immediately published research reaching the same conclusions.
The significance of this result was immense.
There are many brilliant minds in the world, and some immediately thought of using anti-gravity technology for controlled nuclear fusion research.
The hardest part of nuclear fusion is control, because once it starts, reactions occur exponentially.
How to maintain control has always been a major issue. Previously, magnetic field control was considered the best approach, along with many unique designs, but even the most perfect design can only exist on paper for now. Not even laboratories have been able to offer solutions, let alone practical application.
Now, with the discovery of particle degradation in an anti-gravity environment, the speed of nuclear fusion reactions could be controlled by a limit. By mastering this limit, nuclear fusion could be perfectly controlled.
Although this idea is excellent, professional nuclear experts could easily conclude, "Even if the speed of nuclear fusion is limited, it is fundamentally unfeasible to control."
"Once you control the speed of nuclear fusion, it could lead to input exceeding output, and expecting output to exceed input is impossible with current materials and technology."
"Unless..."
"By combining magnetic field control with anti-gravity technology, perhaps a perfect nuclear fusion device could be created!"
Many nuclear fusion research organizations also participated in anti-gravity research and reached the same conclusion.
This line of research sounded very promising.
But what they didn’t realize was, while the research direction only existed in theory, Zhao Yi had already pointed them to a clear path.
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This was an interview. fгeewёbnoѵel.cσm
The reason media journalists came to interview Zhao Yi was because of the discovery of ’particle state degradation’. It’s normal for new findings in gravity research, and Zhao Yi’s findings might not attract public attention, but it caused a sensation in the scientific and academic community, triggering an "earthquake" in the world of physics.
