I Have a Little Black Hole

Yes, yes! This is possible! And our current laser cannons are quite powerful. It's not a big deal to study them while studying electromagnetic railguns, but the idea of ​​deploying dark mines in space is not a big deal. no problem.

We are still very experienced in camouflage, but it seems that it is still difficult for the power of this space mine to reach the strength of blowing up a spaceship, right? In the universe, even using hydrogen bombs as space mines seems to have the same power.

Regarding this point, didn't we just experiment on the small black hole body a few days ago? For our rudimentary and immature 'Moon' spacecraft, we used 4 hydrogen bombs with an equivalent of 5 million tons of TNT to explode at close range Neither completely destroyed it.

Under the full defense of our spaceship, the electromagnetic shield and defensive armor have offset a large part of the explosive power. After the explosion of 4 hydrogen bombs, our spaceship is just the electromagnetic shield disappears, and the armor layer is damaged. The outer structure was destroyed just a little bit.

The core part of the spacecraft is still intact. Although the reactor and the most important engine are damaged, they can all be repaired. Therefore, the four explosions only seriously injured the spacecraft. The point of destruction.

According to our calculations, if we upgrade our fusion reactor to a higher-energy second-generation fusion reactor, the energy it provides to the electromagnetic shield will be enough to withstand a hydrogen bomb of this equivalent.

You see, even with our own spaceship technology, we can resist the attack of this equivalent weapon, not to mention the alien civilization that can travel across interstellar space. Is their spaceship still a piece of paper!

Hearing the experiment mentioned by his boss, Kuafu nodded again and again. He designed and executed the experiment, and of course he was very clear about the data.

Boss, what you said is right, we can't expect other people's spaceship defenses to be lower than ours!

Yes, so the choice of ammunition for space mines is a problem, because even our third-generation nuclear weapons - the neutron bomb, its power is very small for our spacecraft, and even it is not as good as The power of the hydrogen bomb!

After all, if our spacecraft wants to ensure the safety of the personnel in the spacecraft for a long time in space, its radiation protection capability must be extreme, so the neutron radiation bomb, such as the neutron bomb, will be less lethal to the spacecraft.

Then there are not many choices in front of us. The antimatter we are currently researching is a powerful ammunition, but we have not even started the research work on this weapon!

There is only one way we can get antimatter now,

But our Hadron Collider alone cannot collect 0.0000001 grams of antimatter even if it collides 24 hours a day!

What's more, this kind of long-term collision is impossible, because our collider can't accept this kind of work intensity!

And even this one millionth of a gram of antimatter costs hundreds of millions of yuan for us to prepare. This is because our hadron collider is powerful enough and the energy level of the collision is high enough. Of course, there are also reasons why we use By using its own nuclear fusion reactor to supply power, the electricity bill has also been reduced a lot.

And if we want to weaponize it, each dark mine in space needs to use at least 50 grams of antimatter so that it can have huge lethality!

Using our current hadron collider to create a dark thunder antimatter estimates that our company will go bankrupt, not to mention that if we want to make strategic deployments, 10,000 such dark thunders are deployed in the solar system within a light-year range. It's all a drop in the bucket.

So even if we all know that this kind of weapon can become a strategic weapon for space warfare, we will not be able to produce it in a short period of time, even if one goes bankrupt, let alone at least tens of thousands! Lei Tiantang said this is also very helpless.

Although the company began to prepare for research on antimatter when the hadron collider project was established, so far this research is still in a very preliminary stage, the main reason is to obtain antimatter, with Their company's current technology is also a very, very difficult thing.

The so-called antimatter is similar to the particles of matter, with opposite electric properties or spin and torque. Every elementary particle has its corresponding antiparticle. When elementary particles and their antiparticles meet, they annihilate at the same time and explode with enormous energy.

And the research on antimatter has also started a long time ago in many countries, because if this kind of matter is really mastered by human beings, it will definitely make human beings truly enter a new era.

Scientists believe that antimatter can not only solve the energy problem and realize the energy revolution, but also have great application prospects in the military.

Antimatter is considered by military experts from various countries to have the following four military uses: First, it is used as a propellant for super-velocity rockets, such as fuel for sub-light rockets.

The second is to be used as an ultra-small and ultra-light energy generator for military stations in space orbit and other fields. The third is the nuclear trigger used to start fusion bombs. Fourth, it is used as a concentrated beam weapon, such as an anti-matter bomb that can be adjusted arbitrarily.

It can be said that the Western nuclear powers headed by the old US government are very interested in antimatter weapons that use antimatter as ammunition. As early as 1983, the old U.S. government spent $2 million to conduct a feasibility study for the production and use of 10 trillion antiprotons per second for the Air Force of the old U.S. government and a feasibility study for using this technology to create a proton bomb .

From the perspective of Western nuclear weapons classification standards, anti-material weapons belong to the fourth generation of nuclear weapons, which are regarded as conventional weapons and can be used in conventional wars or local wars.

The biggest feature of antimatter weapons is that they have a high energy density and are easy to ignite. Unlike the fission reaction of an atomic bomb, which requires a critical mass and cannot reduce its volume, it does not require an extremely high ignition temperature like the fusion reaction of a hydrogen bomb, which must be detonated by an atomic bomb.

Secondly, unlike nuclear bombs, antimatter bombs have the power of a hydrogen bomb explosion, but they only generate electromagnetic waves when they explode, and do not generate nuclear radiation. They will not cause huge radiation damage to living things and plants, and cause humanitarian disasters. hydrogen bomb.

Scientists estimate that every millionth of a gram of an antiproton annihilates a proton and releases the energy equivalent to 37.8 kilograms of TNT.

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