Free Web NovelChapter 1285: Chapter 616: The New Type of Mysterious Particle_3
First, representatives from various groups presented reports on space technology research and development, with a total of six representatives speaking.
The meeting then discussed each technology proposed and finally voted on them.
In the end, the meeting decided on three core technology projects for key research and development, including anti-gravity decompression lift technology, space engine technology, and solar power technology.
Anti-gravity decompression lift technology uses anti-gravity to accommodate environmental factors (such as a vacuum or atmospheric environment) to achieve decompression lifting, the maximum efficiency of which reduces energy consumption and increases lift-off speed and safety.
Space engine technology refers to the operation of engines that propel spacecraft during space travel, which can also be understood as space propulsion technology.
The environment in space differs from the atmospheric environment, where ordinary aircraft use turbo engines, relying on aerodynamics for forward thrust.
In the vacuum of space, where air is either absent or negligible, air cannot be used as a driving force, making engine development in vacuum conditions a completely new research field.
The main purpose of space engine technology research and development is to make anti-gravity spacecraft more agile in space.
The existing technology for space shuttles involves using fuel for direct propulsion, which is energy-intensive and not very effective. This includes space shuttles used in experimentation, which consumes a lot of energy in a direct, cumbersome way.
The development of space engine manufacturing holds significant meaning for future space exploration.
Lastly, there is solar power technology.
It’s impossible for small spacecraft to install nuclear fusion power units, and they rely on fossil fuel power, making energy very important for these vessels.
If it’s possible to supplement with solar power when energy is low, this can make the power supply more ample. Moreover, when the energy runs out, spacecraft can rely on solar power to slowly return or send timely distress signals instead of getting lost in the vast universe. In summary, the development of solar power is one of the key technologies for ensuring energy supplementation and safety.
While determining the three core technologies, the meeting also finalized nine minor technology developments, including precision recovery of large space equipment, high payload design research for vacuum environments, space safety maintenance research, capture technology, and more.
With Yixing Aerospace Technology’s research projects set, the focus now is to quietly engage in development and accumulate relevant technology.
Meanwhile,
Public discourse related to space shuttle experiments continued to gain momentum, with the primary focus on Anti-Energy barrier research.
The Aerospace Bureau confirmed that one of the core technologies of space shuttle technology is the Anti-Energy barrier technology, encouraging organizations to intensify research on Anti-Energy barriers.
The Institute of Mechanics was one of these organizations and arguably the most outstanding. fɾeewebnoveℓ.co๓
After months of continuous experimentation, they published an experimental report confirming the discovery of a mysterious type of radiation.
Previously, the Institute of Mechanics announced that the mysterious radiation was a second type of electromagnetic wave, and now they have more conclusive discoveries.
"We now believe that it is not an electromagnetic wave because we have discovered that this mysterious radiation can increase electric current and combine with plasma materials," said Belenko Gilgilgrin in an interview.
"So we think that it enhances the efficiency of particles."
"Working together with the HL team from O Continent, we reached the same conclusion. Through continuous experimental analysis, we believe that this mysterious radiation is a particle wave similar to light waves."
"This is a new kind of particle. It cannot be detected by existing scientific methods yet it can combine with active particles, increasing their activity. To some extent, we can say it enhances the energy of the particles."
"If we’re speaking from a physics perspective, it resembles fire in that it can heat material, thereby increasing the material’s energy."
"And next, we will be fully committed to the research of these new particles."
"I can say with certainty that in the coming months, we will be able to identify this new type of particle and analyze its specific functions."
Belenko Gilgilgrin spoke with great earnestness and excitement, because the discovery of new particles was enough for him and his team to achieve the most top-tier accomplishments in physics.
He was already one of the world’s top physicists; the only honor missing was a Nobel Prize.
Now he was infinitely close to the Nobel Prize in Physics.
