When Zhao Yi put his hand on her shoulder, it was ant as a joke, but she couldn’t help but feel a little flustered.
This complex emotion troubled Qian Hong.
By the ti they reached downstairs, she slapped her forehead forcefully, "What on earth am I thinking!"
"How could I have such thoughts!"
"Zhao Yi is so young! Even though he’s a sweet talker, he probably doesn’t even know how to..."
As Qian Hong thought about it, her face blushed even more.
Zhao Yi, on the other hand, didn’t think too much about it. He just thought getting closer to Qian Hong would make it more convenient to ask for her help with als.
Once he moved into the new dormitory, he found that life was so leisurely that it was unsettling.
It was truly leisurely.
Studying was not necessary; projects were not necessary; there wasn’t much to do except enjoying the sun, having fun, and spending ti with people who were either busy or not at school. It seed that only he was idle.
"Why not..."
"Do so research?"
Zhao Yi sorted out his thoughts and decided to take advantage of the free ti to conduct research on theoretical physics.
Currently, he had a collaborative project with Edward Witten, which was to study the boundary of multidinsional space.
Edward Witten took the project very seriously. After returning to Princeton University, he sent Zhao Yi a lot of research materials and ntioned that he would inform him of any progress.
Of course,
There had been no progress so far.
Many physics research projects depend on discoveries in reality.
For instance, astronors use large telescopes to discover phenona in the universe, which physicists need to explain.
For instance, natural phenona also require physicists to study
For instance, data collected from particle collision experints require physicists to analyze.
Etc.
This is what physicists have to do.
If you consider physics research as a skyscraper, the first three floors must be advanced mathematics. Only with a solid mathematical foundation, can the study of physics go further. And theoretical physics is at the top, including string theory, cosmic strings, and the Big Bang etc.
The purpose of these theories is to provide theoretical support for speculations on various phenona in the universe and gradually refine them in the hope of solving all problems.
What Zhao Yi and Edward Witten are doing right now is top-tier research in theoretical physics, a branch of string theory--
Multidinsional space theory.
As long as one conducts in-depth research on string theory, they will definitely touch upon multidinsional space issues, which is why there is ’superstring theory.’
’Superstring theory’ erged to explain multidinsional space questions.
So, a new question arises.
If string theory is correct, why do humans live in three-dinsional space and cannot find other spaces?
This is the contradiction.
Many experts in string theory have tried to explain this problem, and various explanations have erged. However, even more people hope to find multidinsional space.
As long as multidinsional space can be found, the correctness of string theory can be proven.
Edward Witten is one such expert in string theory. He believed that the three-dinsional seismic waveform and the boundary of multidinsional space are related when studying them.
As long as the problem of multidinsional space boundary can be solved, it may help people find the boundary of multidinsional space, and consequently, the real multidinsional space.
The so-called ’finding’ doesn’t necessarily an seeing with the naked eye because multidinsional space is uncertain. It may exist in everyday life but could be as small as particles or as large as the entire universe. The more important aspect of ’finding’ lies in experintation and data validation.
Zhao Yi had a different view.
Although he agreed to cooperate with Edward Witten on the multidinsional space boundary issue, he had a different perspective from Edward.
The so-called "multidinsional space" didn’t seem very reliable.
At least Zhao Yi didn’t believe it.
Although Edward Witten had explained one set of ideas after another, seemingly showing that the waveform had to do with the boundary of multidinsional space, Old Kibor had also ntioned the relationship between the waveform and the boundary of cosmic strings.
Zhao Yi didn’t quite understand it at the ti, but the ideas were actually similar.
At any rate,
Many top physicists believed that the three-dinsional seismic waveform is related to the ’boundary of so theory.’
Boundary?
What boundary is it, then?
Zhao Yi wanted to figure out why so many top physicists thought this way and what they based it on.
That’s how string theory is.
That’s how cosmic strings are.
To understand this problem, one must understand many theories to figure out why that is.
Zhao Yi decided to start learning, focusing on theoretical physics.
He approached Kibor for a large amount of cosmic string material.
Kibor was very excited when he received the call. He thought Zhao Yi was about to believe in cosmic strings and excitedly exclaid, "Welco to the big family of cosmic strings!"
Big family?
It’s actually a small one.
If string theory has a certain level of popularity among ordinary people, not many have even heard of cosmic strings.
Probably not many physicists worldwide study or believe in cosmic strings.
String theory has a higher coverage. So foreign universities have special courses for popular science, and many top physicists conduct research.
Zhao Yi didn’t deny Kibor’s statent but said, "I want so materials on cosmic strings."
"No problem, leave it to . I’ll collect them and send them to your email!" Kibor responded very enthusiastically.
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