The civilization in this invisible state is, of course, the Wandering Alliance.
Since the last battle with the Wa Star Civilization, the Wandering Alliance has once again embarked on its wandering journey. For quite a long stretch of ti, they have not encountered any Constant Stars, nebulas, or civilizations, not even Dark Matter—along the way, there was nothing but bleak and frigid darkness.
The Wandering Alliance seed to have entered a black labyrinth, unable to find a way out.
Fortunately, not long ago, the Wandering Alliance finally observed the Anti-Neutron Star ahead of them, as well as the two biological civilizations fighting near the Anti-Neutron Star.
At that ti, the mood of the Wandering Alliance was like a group of people in the desert dying of thirst who suddenly see an oasis; they were incredibly excited. Thus, the Wandering Alliance imdiately accelerated to its fastest speed, eager to seize the Anti-Neutron Star and, along with it, devour the two biological civilizations as well—simply put, "I want it all". However, what the Wandering Alliance did not expect was that the Anti-Neutron Star would suddenly experience an extrely rare starquake phenonon in the Universe, leading to a series of disasters—a massive annihilation explosion!
This mixed crisis was unprecedented and the most terrifying among those observed by the Wandering Alliance. The dreadful radiation from the starquakes combined with the destructive force of the annihilation explosion was at least comparable to a wave of frenzied bombardnt by a Level 4 Civilization. Thankfully, as the Wandering Alliance has long been a Level 4 Civilization, its technological level was no trifling matter. Furthermore, being tens of light-years away, they faced no danger or casualties. However, the situation was different for the two biological civilizations fighting near the Anti-Neutron Star. Their technology was not as advanced as that of the Wandering Alliance, and being within one light-year from the Anti-Neutron Star, they were directly hit by the full brunt of the explosion’s mixed might. Their defenses were destroyed, their civilization cities were obliterated, and their population was almost entirely wiped out!
Therefore, when the invisible Wandering Star System arrived at the center of the explosion.
Everything had vanished, and the dust had settled, leaving behind only the dreadful aftermath of the disaster.
Seeing a high-density Anti-Neutron Star just explode into nothingness, Dark Gold Lu Xing couldn’t help but say, "Ah, what a pity, that was an Anti-Neutron Star for heaven’s sake. Beyond its massive size, the research value of an Anti-Neutron Star is also imnsely precious!"
"Indeed, it’s a pity. If we could have obtained that Anti-Neutron Star, it might have helped our Wandering Alliance speed up the deciphering of why there is more Positive Matter than antimatter in the Universe. Why does our Universe favor Positive Matter?" Constant Star Lu Chen also said so.
Green Star said, "According to the theory of the Big Bang, all matter, including the Four Basic Forces, was created during the Big Bang. Given the coupling nature of the Big Bang, Positive Matter and antimatter should have been produced at the sa rate and in the sa amount simultaneously. Following conventional developnt, Positive Matter would annihilate upon encountering antimatter, canceling each other out. Hence, there should be an equal existence of both in the Universe, or they should both be nonexistent. Yet, the Universe we see is one where Positive Matter is more abundant than antimatter. The mystery indeed rits profound contemplation!"
Constant Star Lu Chen mused, "If it were in the past, there was a possible explanation once thought plausible. That is, after the Parity Non-Conservation theory was proposed, the three fundantal symtries of the long-believed Parity Conservation Law, naly Charge Symtry, Ti Symtry, and Parity itself, were all refuted one by one. While not all encompassing, at least so particles do not obey the Parity Conservation Law under certain conditions (under weak interaction)."
"Of the three conservation principles, Parity refers to spatial reflection symtry, which ans particles are mirror images of each other. Aside from their spin, their other properties are identical, which is known as Parity. However, Parity has little to do with the mystery of Positive and Negative Matter. What really matters is Charge Symtry and Ti Symtry. Ti Symtry refers to ti reversal symtry, which ans that if we reverse the direction of a particle’s motion, its state of motion remains unchanged, this is called Ti Symtry; whereas Charge Symtry ans that particles and antiparticles are mirror images of each other, i.e., the laws are the sa for both, this is Charge Symtry."
"Yet, after the Parity Non-Conservation theory was put forward, so scientists used the transformation between K sons and Anti-K sons to demonstrate temporal asymtry. The specific experintal thod was to convert K sons to Anti-K sons, then convert Anti-K sons back to K sons. By carefully observing both processes, these scientists discovered that the conversion from Anti-K sons to K sons was faster than the conversion from K sons to Anti-K sons, proving a temporal asymtry. Therefore, so scientists further proposed that due to the slight asymtrical properties of microscopic particles, there is also an asymtry in the charges of particles and antiparticles, causing the Positive Matter ford at the inception of the Big Bang to be slightly more abundant than antimatter. After substantial mutual annihilation, our Universe thus beca dominated by Positive Matter."
"This was one interpretation of the past, but now it also seems flawed. With the conquering of the unified force, we ca up with Basic String Theory, and we have already proven that Ti Particles do not exist. Our so-called concept of ti is just a finite process in the movent of matter. Hence even if the transformation between K sons and Anti-K sons exhibits asymtry, that is not a temporal asymtry but rather a manifestation of individual motion laws, which is essentially different. Moreover, individual experints are influenced by too many factors to explain collective phenona. Furthermore, the way matter was ford during the Big Bang was not a process of converting antimatter into Positive Matter, so it’s incorrect to deduce the formation of matter during the Big Bang from the experints with K sons and Anti-K sons. It’s like inferring that carbon dioxide is more prevalent in the atmosphere than other gases because humans exhale it, which has no necessary correlation."
At this point, so may be unclear about the concepts of Parity Conservation and Parity Non-Conservation.
To put it simply, Parity Conservation refers to the three fundantal symtric ways of microscopic particles, while Parity Non-Conservation ans that those three symtrical thods exhibit asymtry under certain conditions.
It is especially noteworthy that even though Parity Non-Conservation has been proven, it doesn’t an that Parity Conservation is wrong. Parity Conservation is still correct within a specific scope, like Parity Non-Conservation is only established under weak interaction, and in other conditions, Parity Conservation prevails. This is comparable to Newtonian chanics and quantum chanics. Newtonian chanics have been proven to apply only at the macroscopic level as science progresses, whereas quantum chanics are suitable for the microscopic level.
Lu Xing laughed and said, "If we look at the past with today’s science, it’s certainly full of holes. But the scientific theories of each era are inevitably limited by contemporary views, so it’s already remarkable that they could co up with such thods then. After all, even now that we’ve beco a Level 4 Civilization, we still have not clarified why Positive Matter is more abundant than antimatter. However, that’s what science is about—finding more accurate theories and the truth in the continuous process of correcting errors. That is the purpose of science’s existence, and having this mindset is to truly possess scientific thinking."
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