Chapter 292 Collision Experiment
This is of course great news. Although no strengthening agent has been developed to make human physical fitness stronger again, the only side effect of the previous strengthening agent can be eliminated.
In other words, as long as the gene fragment showing scales is replaced, humans can maintain their original comprehensive physical fitness while maintaining their human appearance.
For humans, this is of great significance. After all, apart from racial concepts, from an aesthetic point of view, no one wants to have scales on their face, right?
After the body strengthening technology was improved, the new government also knew the significance of this technology, so it increased its investment. In this case, the improved version of the body strengthening technology quickly passed clinical trials, and in the tenth year after that, it was successfully mass-produced and put into society.
I don’t know if it’s because of the rich biosphere resources for research. Shortly after the popularization of the improved version of the body strengthening technology, the Life Science Research Institute made a breakthrough in the life potion.
However, this life potion is not the result of the research on the biosphere of the dog-headed planet, but an evolution of the previous Wolf biosphere research project.
Scientists continued to improve the previous Life Potion 2.0. After countless invalid experimental versions such as Life Potion 2.0.1, 2.0.2, etc., they finally found a satisfactory version, Life Potion 3.0.
According to experimental data, this version can deceive genes for about 800 years.
One Peng Zu year.
This version lasts for 800 years, plus 1.0 version for 200 years, and 2.0 version for 400 years. This means that if a person uses Life Potion 1.0, 2.0, and 3.0 in sequence, he can live at least 1,400 years.
The emergence of these two technological breakthroughs in the Academy of Life Sciences has swept away the previous decadence of human society, and those calls for technological stagnation have also disappeared.
Human engineering and research projects are once again driven by the enthusiasm of the public.
If you look at the current human beings from the perspective of space time, you can see a busy scene. In the empty space, special boxes full of various mineral resources are projected into orbit by orbital mass accelerators.
The transport ships with long blue tail flames transport these resources to various space factories and space docks. From synchronous orbit to far-Earth orbit, from local orbit to human fleet docking orbit, transport ships with long tail flames can be seen everywhere.
They are like bees, going in and out of various huge space facilities, presenting a thriving scene.
In such a busy scene, a huge circle is particularly conspicuous.
This circle has a circumference of 10,000 kilometers. The largest human warship Tianqin can pass through the circle horizontally, and those engineering spacecraft responsible for building and splicing modules appear even smaller.
Looking from a distance outside the space, it is really a space fortress, and those engineering ships are like little bees building nests.
This is the space multi-point particle collider that humans are about to complete.
At this moment, the construction of the collider has come to an end. The lights of the splicing modules have been turned on. At a glance, it looks like a brightly lit Ferris wheel, and the tail flames of the engineering ships complement the starry sky against the dark background, like gems surrounding a circle, shining and beautiful.
In a few years, when the engineering ships have welded the outer shells, it will be officially completed.
Because the collider is too huge, humans designed it into a modular splicing structure. There are five large modules in total, and the total length of each structure from head to tail is about two kilometers, in an arc shape and circular in shape. For transportation needs, human engineers also installed independent heavy nuclear reactors on each section of the collider module.
When conducting experiments, these heavy nuclear reactors will power the collider. When humans leave, they will be used as engines, pushing their own modules and sailing with the human fleet.
Time flies, and several years have passed in a flash.
When the particle collider was completed and the trial run was successfully completed, scientists could not wait to start the collision experiment.
The most excited ones were the particle physicists.
Well, generally speaking, the scientists who conducted the collision experiment were actually scientific research teams. The most active scientific team that applied for the right to use the right included physicists, engineers and security personnel.
Physicists were responsible for the design and theoretical analysis of the experiment, engineers were responsible for the operation of the equipment and the installation of the particle generator of the experimental object, and security personnel were responsible for the protection and maintenance of order at the entire experimental site.
There is no doubt that the security personnel are all qualified security soldiers who belong to the Security Department.
After the collision experiment was prepared, the engineers in the scientific team called up the command interface and entered various instructions on it.
Soon, a system prompt sounded in the collider operation room and other recording points and observation points: "The space multi-point particle collider self-check is complete, the observation point equipment is normal, and the diversion probe module is normal. The startup serial number verification is completed, the identity verification is passed, and the enabled channel is the hadron collision module. The colliding particles in this experiment are protons, and the experiment number is"
"The No. 1 heavy nuclear reactor is powered normally, the No. 2 heavy nuclear reactor is powered normally, and the No. 5 heavy nuclear reactor is powered normally. The coordinated spectrum has been turned on, the super magnetic field proton generator is ready, and the experiment is ready."
After confirming everything was correct, the engineer in charge of the operation immediately pressed the start button.
As the start button was pressed, a strong mechanical bite sound, accompanied by dense overclocking sounds, came from the proton generator. At this moment, the originally brightly lit space multi-point particle collider dimmed, and the five heavy nuclear reactors also trembled slightly.
"The proton flow is separated normally, the guide magnetic field is normal. The particle flow has entered the outer ring structure, the super magnetic field acceleration is normal, and the maximum speed is expected to be 99.9999999999% of the speed of light." The system broadcast sounded again.
The space multi-point particle collider is different from ordinary colliders. After these particle flows are accelerated by the magnetic field in the ring structure of the collider, they will not collide in the large circle.
Instead, after circling enough times and reaching the predetermined speed, under the action of the guide structure's magnetic field, the original orbital trajectory is changed, and the prepared straight pipes in the large circle are entered, and finally the straight pipes converge with other ion beams at one point, and then collide.
This collision point does not exist in the same plane as the large circle of the collider itself. The detectors, cloud chambers and other equipment and facilities placed by humans are at the end of these straight pipes.
After the collision experiment is completed, physicists will conduct a detailed analysis of the substances produced during the collision based on the data recorded by the measuring instruments, so as to explore more unsolved mysteries in physics.
Of course, the so-called collision experiment is not completed with just one collision. After the experimental application is approved, the team of scientists often conducts multiple experiments, and then conducts experimental analysis through multiple methods such as comparison and control.