Chapter 468 - 469 This result is not ideal.
Chapter 468: Chapter 469 This result is not ideal.
On the planet in the outermost circle of the Kuiper belt, a piece of metal body with a certain thickness tends to be flat and fixed on the surface in the vacuum environment. There is an organism attached to the front and back, which is roughly equivalent to the size of two heads.
Of these two organisms, one is an organism that performs positive and antimatter annihilation, and the other is an ordinary meat block, which is an experiment that experiments on the ability of proton lattice to block gamma rays.
"Let\'s begin!"
With the arrival of a radio frequency band from far and near, the positive and negative substances inside one organism are annihilated, and a huge amount of gamma rays are released, which hits the proton lattice at close range.
A dazzling scorching sun rose from the horizon of the planet\'s surface. With the passing of light, a whole eight tons of material were annihilated and evaporated.
In a large area of the planet, not even a cell can survive. Looking at it, it is a lake built of lava. Because there is no atmospheric environment, there is no shock wave. The energy of gamma rays washes the surface and the material layers under the ground.
"Go and extinguish these lavas. Don\'t let these things interfere with the experimental results."
Another radio communication command, the still intact rhizome moves quickly on the surface, using low-temperature substances such as liquid nitrogen to forcibly and large quantities to cool the lava and reoccupy the lost area.
And the organisms wandering in space also began to go to the center of the lava lake after this communication, which is the center of the annihilation energy of positive and antimatter.
Then this organism near the surface of the planet from the universe saw such a scene - in this large lava lake, there is a small island. The area of the island is exactly the area of the proton lattice, and the adjacent place next to the island is lava, which is very hot and hot, like boiling thick soup.
Before the lava engulfed the island, the organism landed from the air, captured the proton lattice, raised the height again, and sent the experiment to a safe place.
The collectors waited there early and began to confirm the condition of the organism shielded by the proton lattice as soon as the proton lattice arrived.
"How, how can it be like this..."
"It shouldn\'t be. How can it still have one-third of cell necrosis?"
The proposer of the original scheme looked at the damage information confusedly, which is not consistent with the physical model it established. The organism itself should not be harmed by gamma rays.
"Could it be the gamma-ray photon that knocked the proton away?"
"...There is a possibility, but one-third of the damage is still too much. The collision should be a small probability."
"We should ask Si. Its understanding of knowledge is higher than ours, and its brain is more flexible than ours."
"I agree."
He Si\'s communication was connected, and the experimental information was directly sent to Wei.
"Of course, it\'s because the gamma rays have passed through. It\'s that simple." Si gave an answer to these colleagues who carried out the experiment.
"Is it because the proton was knocked away by the gamma photon?"
The proposer of the plan asked Si. If Si gives a positive answer, the collectors will consider thickening the two layers of proton lattice to completely avoid such situations.
However, Si\'s answer surprised it.
"No, because there are still gaps in your proton lattice. A small part of gamma photons pass through the gap between the protons and hurt the organisms hiding behind, that\'s all."
"Huh? The distance between protons is less than the orbital radius of the lowest energy level of electrons. Shouldn\'t the gamma photons bounce off?
The proposer who heard this explanation couldn\'t help but be stunned on the spot. Because Si\'s explanation does not match its physical model, the gamma photon should not be able to pass through the gap between the proton and the proton, because it is below the radius of the electron orbit, and Pauli\'s law of incompatibility will not allow particles to pass through there.
The answer of the proposer is also a strange rhetorical question.
"Bounce off? Why does it bounce off? Non-electristic gamma photons do not interact with protons electrically. Unless these protons can be close to each other, it is impossible to block gamma rays 100%.
After a moment of silence, combined with the actual experimental data, the proposer was finally determined.
"...That is to say, my physical model is wrong?"
"I want to know the reason for my mistake. Si, send me the information."
Without hesitation, he pointed out the reason why gamma rays pass through the proton lattice in the experimental results of his peers. The reason is that photons are bosons, and bosons do not need to follow the Pauli law of incompatibility. This law in quantum mechanics only applies to fermion, so gamma photons can pass through the proton lattice. The gap in the body, which was completely misunderstood by the collectors who participated in the experiment.
After digesting the information, the proposers of the plan were disappointed, and some of them couldn\'t help but be lost, as did other collectors.
"So that\'s it. I was so excited before..."
It\'s not that I\'m disappointed with the performance of the proton lattice. Even if it fails to block all the gamma photons, it is much stronger than the previous thick lead element protection layer, because the protons are dense enough, and a large number of gamma photons are returned after impact, which makes the experiment body that should have become coke only One-third of cell necrosis survives, and it can be said that this kind of proton lattice is very useful.
The lost mood of the collectors is mainly because the initial expectations are too high, and the gap is suddenly unacceptable. The image is that a group of top students sigh after the mock exam, holding a pile of more than 90 points of test papers and muttering, \'This question, that question should not lose points\', \'I could have got 100 points. Words like \'Fone the exam\'.
"By the way, can\'t we continue to increase the pressure and narrow the gap between the protons so that they are close to each other? In that case, it can definitely resist gamma photons 100%. Some collectors put forward such an idea.
"Let\'s not mention how to work in the extreme environment that creates that kind of pressure. Even if it is made, we can\'t store and use it."
Other collectors explained that that the state is too extreme. The whole surface is protons without even a void, and the electromagnetic force between the protons will overflow. It is a big problem to maintain pressure to ensure that it will not be combined with electroneutral particles. There are also many reasons to consider, such as nuclear fusion...
Today\'s proton lattice is a sub-stable structure. Protons occupy the position of electrons. According to Pauli\'s law of incompatibility, electrons cannot form hydrogen with protons. As long as the pressure does not decrease, it can maintain such a state.