Those who were not involved in the developnt of Spatial Connection Technology could never imagine that there was a relationship between Spatial Information Transmission technology and antigravity; they assud they were two different research directions.
This was the case both dostically and abroad.
In the eyes of top scientists who understand antigravity theory, antigravity theory and technology were developed from superconducting antigravity research.
It all started with the collaboration between Zhao Yi and Li Ning, who developed the theory of superconducting antigravity. Later, a team led by Zhao Yi based on this research developed the theory and technology of photon antigravity.
The current Spatial Information Transmission might be a brand-new technology.
Although the principle of Spatial Information Transmission is still unclear, if there truly is space transmission within the range of conventional understanding, it is most likely based on the expansion of multidinsional space research.
And the research on multidinsional space was a project of Zhao Yi and Edward Witten.
M Country also found a bit of confidence in this, with so dia claiming, "Both antigravity technology and Spatial Information Transmission technology are related to scientists from M Country."
One is Li Ning, the other is Edward Witten.
The theory of antigravity had already been made public, and many enterprises and organizations had obtained antigravity devices and patent licenses, as well as initiated related research, so it seed there were no secrets left to tell.
The technology for Spatial Information Transmission is not yet clear, but judging from public opinion, it seems to be primarily for civilian use. Dostically, there is no intention to hide it; instead, the information was made public, probably with the intention of laying out the civilian domain.
The international reaction was not very intense, just curious about the specifics.
Edward Witten beca the focus.
If you sought soone abroad who understood the technology of Spatial Information Transmission, Edward Witten would inevitably be involved; everyone felt that if spatial transmission technology existed, it was probably related to the study of multidinsional space.
Edward Witten, an expert in string theory, had conducted M Theory research with Zhao Yi and definitely would know so information.
In truth, Edward Witten knew nothing.
When he saw the public opinion, Edward Witten also thought it related to the research on multidinsional space, but he was very clear about the progress of their research. Their theory had only advanced to mass points, researching the material construction of M Theory multidinsional space, and it was rely mapped under the specifications of the Riemann Conjecture and Fermat’s Last Theorem.
In the course of their research, they proved the Riemann Conjecture.
That was it.
At the ti, the whole world was focused on the proof of the Riemann Conjecture, uninterested in the achievents of M Theory. Edward Witten felt incredibly frustrated and could only return to Princeton by himself to continue his research and organization.
And now...
Zhao Yi had advanced the research to ’Spatial Information Transmission’?
Impossible!
Edward Witten’s first reaction was disbelief, but he didn’t bla Zhao Yi for not telling him because Spatial Information Transmission technology was definitely of strategic importance. It would revolutionize communication technology and was not sothing to be shared lightly.
His second reaction was schadenfreude.
Do you see?
"Back then, I kept promoting the progress of M Theory, but nobody cared, and so even said I was insane..."
"And now?"
"Zhao Yi used it to develop Spatial Information Transmission technology!"
"The Riemann Conjecture is indeed important, but it’s just on the theoretical foundations of mathematics, while Spatial Information Transmission will beco technology that revolutionizes communication systems!"
"..."
While he felt schadenfreude, Edward Witten also continued his research thinking. Their next step in research would be related to shaping the boundaries of multidinsional space. The logical course was to compare the current results with micro quantum physics and connect with Higgs theory to perform the relevant mathematical derivations.
After completing this stage of research, it might be possible to achieve ’breaking multidinsional limits,’ which could then allow for so-called ’dinsional transmission.’
"Has Zhao Yi already completed it? Has he broken the boundary of dinsions?"
"The thod of spatial information transmission must involve particles jumping from three dinsions to higher dinsions, then returning to three dinsions..."
"This would establish a spatial channel."
Edward Witten expanded his thought process for deep thinking. There were many similar scientific theories, most of which were just fantasy, like wormholes in science fiction movies or other space-jumping technologies.
That was not technology; it was fantasy.
Edward Witten’s ’fantasy’ was much more sophisticated, grounded in mathematics and based on scientific thods to ’break apart space.’ Because of this, he realized that constructing such mathematics was far more difficult and complex than one could imagine.
Actually, it was normal for him to have such an idea.
In Edward Witten’s understanding, space was rely divided by dinsions; three-dinsional space was an empty field void of anything. His research defined three-dinsional space as ’nothingness capable of containing mass and energy, with the absence of Higgs fields and other particle effects.’
If space was an empty void, there was naturally no need for analysis or expression.
He never once thought that space could be analyzed, or that space would react with particles, even when he had researched mass points with Zhao Yi. Their foundation was that three-dinsional space would compress mass points, but he simply considered it just a ’definition.’
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