Free Web NovelChapter 1539: Chapter 728: The Absence Will Always Exist
Recently, a significant breakthrough in gravitational technology has occurred. The team at Space Information Technology Company adopted a method of bifurcating light beam nodes, which considerably increased the strength of gravity generation, achieving up to thirty percent of Earth’s gravity—three times the original effectiveness.
This substantial enhancement greatly boosted the team’s confidence in continuing their research.
However, the crux of the problem was the lack of theoretical support.
This situation was akin to ancient Taoist alchemists studying chemistry. Even if they recognized they were delving into chemistry, without a theoretical foundation, they could only engage in haphazard experimentation and rely on the accumulation of experience; significant advancements were extremely challenging.
Some individuals in the team suggested researching a trisection form of light beams, and they indeed attempted it, but the results were almost negligible, even worse than the bifurcation approach.
The Space Information Technology Company’s team is now constantly experimenting, but they have not made any progress for a considerable time.
If they wished to achieve further enhancements, theoretical support was crucial.
Zhao Yi was acutely aware of this.
He hoped to develop a theory to underpin gravitational technology.
The theoretical group had been working on this, relying on the Voidon hypothesis to perform a comprehensive analysis of the foundation of gravitational technology, which they had already completed.
As it involved numerous speculative elements, and the Voidon hypothesis itself was an assumption—uncertain in the very existence of Voidons, merely a way of understanding space.
But they had no alternative apart from grasping the theory and then deducing various conclusions.
Once the analytical work predicated on the Voidon hypothesis concluded, Zhao Yi gathered everyone to embark on deeper research efforts.
At this point, a piece of news garnered significant attention both domestically and internationally.
It was about the Nobel Prize.
The Nobel Committee announced that this year’s Nobel Prize ceremony would be held domestically in a large conference hall in the capital and invited scientists worldwide to participate.
This was undoubtedly unprecedented.
The Nobel Prize ceremony had always been in RD Country, as Alfred Nobel himself was a chemist and inventor from RD Country, and the venue for the Nobel Prize had never changed; recipients had to go to RD Country to receive their awards.
Clearly,
The Nobel Committee’s decision to change the venue to inside the country could almost be seen as a concession to the trend of scientific development.
The world had undergone major changes, and the domestic front was now the core of technological advancement.
Meanwhile, the Nobel Committee also announced the list of candidates for various awards, including over a dozen scientists from the country. The most watched candidates were physicist Zhang Qican and medical award candidate Zhang Wei.
In the research of material transportation, Zhang Qican was the prominent figure, with papers published centered around him, attributing the main discoveries of material transportation to him, and he was certainly capable of receiving a Nobel Prize.
However, it was clear to everyone that Zhao Yi was the one who should have been awarded.
Even in the research of material transportation, the true mastermind was undoubtedly Zhao Yi, and even if Zhang Qican were to win, he should win alongside Zhao Yi.
But Zhao Yi had already decided to decline any science-related awards, and the Nobel Committee would no longer include him in the list of candidates.
Another figure that drew attention was Zhang Wei from the Zhao Yi Laboratory at the Biomedical Research Institute, a very famous female scientist in the field of internal medicine, well-known even among the general populace and considered a representative of the Biomedical Research Institute.
Zhang Wei’s inclusion in the list of medical award candidates was due to her research on Tianqing Protein.
Similar to Zhang Qican’s situation, the primary researcher for Tianqing Protein was also Zhao Yi, who had the most significant contribution to the study, with Zhang Wei ranking second.
Since Zhao Yi declined to accept science-related awards, the Nobel Committee, opting for the next best thing, decided to let Zhang Wei participate in the selection for the medical award.
Although both individuals’ candidacies were directly related to Zhao Yi, the academic community generally believed that their chances of winning were very high. freeωebnovēl.c૦m
This was mainly because the research on Tianqing Protein and the discovery of material transportation were achievements that far exceeded the scope of the Nobel Prizes.
By the standards of Nobel Prize selection, Tianqing Protein alone would justify more than five Nobel Prizes in Medicine, as medications related to Tianqing Protein had already saved countless AIDS patients, significantly prolonging their lives. Many no longer showed symptoms, and with continuous medication, they could live like normal individuals without being infectious.
The discovery of material transportation can be described as a leap in scientific discovery, even surpassing the latest technological fields, let alone traditional physics.
Consider...
Predicting the existence of neutrinos based on prior experimental accumulation led to a Nobel Prize once discovered.
What about material transportation?
This was undoubtedly a trans-dimensional discovery in physics, enabling humanity to make a giant leap in understanding the universe and physics.
In terms of impact, the discovery of material transportation could merit ten Nobel Prizes in Physics.
Therefore, the prospect of Zhang Qican receiving the Nobel Prize in Physics seemed to be a foregone conclusion, and the academic world even thought that awarding him alone was a sign of the Nobel Committee being stingy. Qiu Chengwen and Edward Witten, who also participated in the research, should receive the Nobel Prize in Physics as well.
