Chapter 961 Treasures of the New World
Chapter 961 Treasures of the New World~
A stone stirs up a thousand waves. An acceptance report meeting within the CRHPC organization is like a meteorite falling from the sky into the ocean, which has set off a shocking wave around the world.
The confirmation of Cτ inert neutrino particles has brought the entire physics community to a new field.
Dark matter and dark energy, these microscopic worlds that have never been explored by humans before, have now opened a real window to them, which is exactly what makes countless physicists excited.
Because they are facing not only a brand new world, but also countless treasures from this undeveloped new continent.
According to Professor Xu Chuan's research, the huge energy released by massive dark matter particles during void breaking fission distorts the folds of space. This allows spacecraft to use the curvature of space itself to generate power, thereby flying at extremely fast or even superluminal speeds.
Or, with the help of the energy released by dark matter, a hole can be made directly on the wrinkled membrane of the universe, and a space-time bridge can be built in the universe, connecting to the universe several light years away or even more distant.
If these theories can be confirmed, time and space travel in the distant universe will become a reality, just like all the science fiction movies we have seen in the past, whether from Hollywood or elsewhere.
In comparison, the confirmation of the Cτ inert neutrino particle, a dark matter particle beyond the standard model, does not seem so important.
At the same time, this acceptance report meeting that shocked the entire academic community has attracted the attention of more than just scholars within the physics community.
When the news flowed from the professional field to the Internet, which is more open to the public, it aroused the curiosity, interest, and shock of countless ordinary people.
Dark matter, dark energy!
Warp engine, space-time tunnel, wormhole.
A series of professional physics terms have continuously entered the public's field of vision from the academic community, either through media news reports, or through the explanation of bloggers in the field of science, or through some eye-catching marketing accounts and traffic exaggerations.
In short, in the summer of 2025, the entries about space travel exploded directly.
Whether it is the previous manned landing on Mars or the current research in the field of physics, they are constantly being discussed and evaluated.
Curvature engine, space-time wormhole!
These technologies have always been considered impossible by people, at least within one or two centuries, and at this moment, a seed of hope has been planted in the hearts of many people, which does not affect people's expectations for it.
Especially these theoretical predictions and speculations were made by the famous Professor Xu.
After all, he has created countless miracles.
Therefore, many people have begun to discuss what the scene is like in the distant universe outside the solar system based on this hot topic.
In just one night, it seems that interstellar migration to distant space is about to become a reality.
For Xu Chuan, he doesn't care too much about the outside world's views.
Although he also has a high desire for distant interstellar travel in his heart, even the relevant theories are proposed by him personally.
But he remained highly calm about this matter.
At least from his perspective, it is almost impossible to use massive dark matter particles to travel faster than light or through hyperspace in one's lifetime.
The difficulty is really too great.
Not to mention using massive dark matter particles to realize the curvature engine, even truly "seeing" dark matter particles is impossible for current humans.
The existing detection technology is all based on the side observation of dark matter particles.
Just like a stone falling into a pond, people can only see the ripples on the water and hear its sound. And what exactly this stone looks like, whether it is granite, pebble, or a piece of soil is not clear.
Just like their current collision detection of Cτ inert neutrino particles, it is only through the aftermath of the collision experiment that its existence is confirmed and its mass, energy level and other small information are understood.
As for what particles this particle is made of, what kind of structure it has, and whether it is composed of various smaller microscopic particles such as protons, neutrons, and electrons like atoms, we still know nothing about these things.
After the acceptance report meeting of the 125Tev energy level was officially over, Xu Chuan spent a whole day, with the help of AI academic assistant Xiao Ling, to organize the report of this inert neutrino and massive dark matter particle detection collision experiment into a paper.
He did not plan to post this paper on the Arxiv preprint website.
For the physics community, this is a brand new world, and it is completely worthy of any top TOP journal.
It is no exaggeration to say that as long as it is made public, no matter which journal it is in, it will directly blow up this journal, and sales will directly reach the peak.
Of course, for Xu Chuan, the priority for submission is definitely the academic journal "Exploration" he personally created.
The general journal of "Exploration" has not published a new publication for a long time, and this paper related to Cτ inert neutrino particles is undoubtedly the content of the next general journal of "Exploration".
When the relevant news was released, the entire academic community was eagerly looking forward to the release of the next issue of "Exploration".
When Xu Chuan was in his office sorting out the relevant papers on Cτ inert neutrino particles.
On the other side, in the United States, at California Institute of Technology.
Looking at the news reports in his hands and flipping through the synchronization report files downloaded from the CRHPC official website, Kip Thorne, the 17th Nobel Prize winner in Physics, was full of interest.
As a top expert in theoretical physics and astrophysics, he has been engaged in related research.
From the mid-1970s to the 1980s, he led and developed technical ideas and plans for gravitational wave detection, and co-founded the Laser Interferometer Gravitational Wave Observatory (LIGO) project with Rainer Weiss and Ronald Drever.
The project finally detected gravitational waves generated by the collision and merger of two black holes in 2015, and won the 2017 Nobel Prize in Physics.
"How do you feel?"
In the office, another Nobel Prize winner in physics, Reinhard Genzel, took a sip of coffee and asked with a smile.
Across the sofa, Kip Thorne raised his head, thought for a while and said, "Apart from his mathematical calculations on dark matter particles, I have to admit that his understanding of time, space and the universe has brought me a new understanding."
"The decay of massive dark matter particles, well, the way he calls it fission, will release a lot of energy, which will in turn affect the curvature of time and space. Although I don't quite understand how he came up with this, it is indeed a very wonderful idea."
"And looking back, the theoretical feasibility of this idea is far more reliable than the black hole theory and wormhole theory I wrote at the beginning."
It is worth mentioning that this top expert in the field of theoretical physics and astrophysics has also served as a scientific consultant for the movie "Interstellar" directed by Nolan.
And "Interstellar", a world-famous science fiction movie, is adapted based on the black hole theory he proposed.
PS: There will be another chapter later, please give me a guaranteed monthly ticket~