What is multidinsional space-ti?
To ordinary people, talking about multidinsional space might feel very sci-fi, or they might think of traveling through ti and space, and so on. If they continue to ponder, they reach the realm of deities, where, by developing their imagination, they can co up with many more things.
However, in the eyes of top mathematicians and theoretical physicists, multidinsional space-ti is nothing more than a bunch of data, explanations, equations, and analyses.
Edward Witten could easily discuss multidinsional space-ti and even explain it using mathematics because he often researched string theory and M Theory, the core support of which was the existence of multidinsional space-ti.
M Theory is a further developnt of string theory, proposed in the hope of achieving a grand unification of physical laws.
But whether it’s string theory or the closer M Theory, both are developnts of string theory, which had the concept of multidinsional space-ti from the very beginning, reaching up to "eleven dinsions."
Eleven dinsions are hard to imagine.
Most people can at most conceive of four-dinsional space (not including the tiline, which only exists in theory); eleven dinsions are utterly unimaginable, and top theoretical physicists are no different. They also rely on mathematical thods to express and analyze these dinsions, using comparisons with other lower dinsions to explain the concepts of higher dinsions to those who do not understand.
Zhao Yi was also unable to imagine higher dinsions of space. Equations beyond four dinsions beco extrely complex. So, his study of multidinsional space-ti with Edward Witten was also based on ’increasing dinsionality by one degree over three dinsions,’ rather than engaging in overly complex dinsional research.
The most fundantal definition of their research is, "Mass points co from four-dinsional space."
This is Edward Witten’s opinion.
Edward Witten believed that mass points ca from higher dinsions but did not imagine them coming from five or higher dinsions. The matter in five dinsions is too far beyond imagination, so he started with the four-dinsional basis.
Zhao Yi’s view was ’uncertain’. He was unsure whether mass points ca from multidinsional space or if mass points were rely a combination of three-dinsional energy points, the latter being a product of new ways of understanding.
Through this new understanding, considering the relationship between photons and space, one could further expand their imagination. In a broad sense, space absorbs energy, which supports the continuous expansion of the universe.
From particle leaps to space and then to the entire universe, the new way of understanding could be used to explain many things.
No matter which thod is used to understand, the mathematical expressions are the sa.
This is also why Zhao Yi was researching with Edward Witten.
Though they had differing views on the universe, theoretical physics, and string theory, it did not affect their joint mathematical research. In terms of expressing mass points, whether they co from four dinsions or are a combination of three-dinsional energy, the mathematical expression would not change.
The two patiently structured and analyzed the topological forms of mass points together, hoping to find a perfect expression and reflect the entire topological forms of mass points onto the carrier that conforms to the Riemann Conjecture and Fermat’s Last Theorem.
If a summary were to be made of their research, the title would probably be--
[The Topological Forms of Mass Points Constructed Based on String Theory, and Their Mapping Under the Regulations of the Riemann Conjecture and Fermat’s Last Theorem.]
Clearly.
It was a complex study.
The mathematical work Zhao Yi conducted with Edward Witten was incomprehensible not only to ordinary people but even to professional mathematicians.
For instance, Zhou Li.
Zhou Li was a pillar of the Yanhua University College of Science, with international influence on the research of linear partial differential equations.
Zhou Li knew Zhao Yi was researching with Edward Witten, so he ca to look at their work, but left the room after less than half an hour.
Because he could not understand it.
Although he could comprehend the symbols, equations, and applications individually, he was totally clueless when they were put together.
As Zhou Li walked downstairs in a daze, he ran into Ruan Wenye coming up.
Ruan Wenye accompanied the senior leaders, who, having heard about Zhao Yi’s research on multidinsional space, were interested in taking a look. The leaders ca very low-key, without bringing anyone else, dressed like an ordinary university professor.
Zhou Li, still feeling confused, failed to recognize the senior leader and greeted Ruan Wenye with only a casual "Here to see Zhao Yi?"
"Yes."
Ruan Wenye nodded and asked, "Professor Zhou, you just ca down? How was it?"
Zhou Li looked up at the white clouds with a look of bewildernt and sighed, "The clouds, they’re too high, I, can’t reach them!"
Having said that, he shook his head and walked away.
"What was that?" Ruan Wenye thought he had misheard. He stared at Zhou Li’s retreating figure, dug into his ear, and muttered softly, "Professor Zhou... Is there sothing wrong with him? If he can’t touch the clouds, shouldn’t he go climbing a mountain? Or take a hot air balloon ride?"
"Or is it sothing else he ans..." As he walked on, he pondered, "Touching clouds? Clouds? Could it be that Professor Zhou, has grown old, but had his heartstrings tugged by so young lady?"
"Pfft!"
The senior leader following behind couldn’t help but laugh aloud, imdiately covering his mouth and turning stern, "Cough cough... It’s not nice to speak that way about others! I think Professor Zhou is a very honest man, it’s not possible, absolutely impossible."
"Yes, haha~~"
Ruan Wenye quickly nodded in agreent, but still couldn’t help letting out a few chuckles.
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