Start sweeping the universe by rubbing the CPU with your hands.

Chapter 369 This is not normal!

Black holes are the most peculiar and mysterious celestial objects in the universe.

Its gravity is so strong that within the event horizon, the boundary of the black hole, it is impossible for any matter to escape. Because the escape velocity there has exceeded the speed of light, and the speed of light cannot be exceeded.

Even the fastest moving light cannot escape, so what else can escape from there?

So far, even though he has reached the pinnacle stage of the third-level civilization and has begun to charge towards the theory of everything, Han Yang still knows nothing about what the inside of a black hole looks like and whether the laws of physics still hold true there.

In other words, Han Yang had some guesses, but he didn't have the ability to verify them.

At this moment, Han Yang's computing power extended to the side of the most peculiar celestial body in the universe for the first time, and he saw the black hole with his own eyes.

To say that I saw it is actually not quite accurate. Because strictly speaking, black holes cannot be seen.

It neither radiates any light nor reflects any light. It was completely dark and impossible to see.

What Han Yang saw was the light formed by its influence on external objects.

But with such a small volume, the mass equivalent to nine suns is stuffed inside.

It's still because of the super strong gravity of the black hole. Its gravity distorts the light from behind it to the front, and enters the telescope together with the light from the front.

Although it has an accretion disk, it does not have too much matter, and the rate of swallowing matter is not high. It does not madly tear mass from the companion star like some bad black holes.

The gravitational pull of a black hole is too strong. Even light outside the black hole's event horizon will have its propagation path affected by the black hole and be deflected or offset.

But even this outline is not a representation of the true appearance of a black hole.

So entering the telescope operated by Han Yang, the light was also deflected, full of distortion and chaos.

Han Yang has observed that under normal circumstances, an extremely powerful neutron star, which can be called an extreme star, is too close to a black hole. As a result, the body that was originally called a standard sphere was directly stretched into an oblate sphere, and then It was torn apart directly, and not even the dregs were left.

Yes, its radius is only 26.4 kilometers. Not to mention comparing it to the sun, even compared to the earth and the moon, it is too small to be worth mentioning.

Even the light existing behind the black hole can also be seen by Han Yang.

These radiations also include visible light.

A mass equivalent to nine suns sits here, so the huge red giant with a radius of 8 million kilometers is about 560 million kilometers away from the black hole, as well as all the planets, dwarf planets, asteroids, Comets and interstellar dust can only use it as the core and revolve around it.

This is what a black hole really looks like.

So a pure black sphere with a radius of about 26.4 kilometers appeared in his mind, with something that looked like a ribbon flying around him.

Of course, after knowing these characteristics of black holes, through calculations and program corrections, Han Yang can remove these distortions and present the true appearance of a black hole.

A large amount of interstellar matter is attracted by its gravity and gathers around it. These materials rotate around it at extremely high speeds, and the friction between them generates a large amount of energy, giving these materials extremely high temperatures and extremely strong radiation.

Mountains and rivers, storms, rain and snow, vast plateaus, boundless oceans, thousands of creatures, everything on the earth is compressed into the size of a soybean, which is a black hole.

In Han Yang's opinion, this black hole is a relatively honest and peaceful one.

Therefore, through the brightness of the surrounding area, the darkness of the core was reflected, allowing Han Yang to roughly see its outline.

If the sun were turned into a black hole, the radius of the solar black hole would only be about 3 kilometers. If the earth were turned into a black hole, then the earth's black hole would only be about the size of a soybean.

Some star-black hole binaries, or white dwarfs-black holes, or neutron stars-black hole binaries, are torn apart by the strong gravity of the black hole because they are too close, and the material on the companion star will be sucked directly into the belly of the black hole.

The lucky thing about this red dwarf is that it is far enough away from the black hole, up to about 8 million kilometers, so there is no need to worry about being torn apart by the black hole.

What the black hole absorbs at this moment is only the stellar material thrown out by itself as it enters the final years of the star.

But this is not possible.

This black hole is so quiet and honest, where can I observe violent enough physical phenomena?

It has to be active, it has to be dry.

After unloading the material with a total mass of 1000 million tons, the Future space carrier immediately started again and returned to the solar system.

The scientific research ships, transport ships, etc. that stayed here took these supplies and headed for the dwarf planet next to them.

This dwarf planet has a radius of about 2000 kilometers, which is larger than the moon. Its mass reaches 2.2*10^23 kilograms, which is about three times that of the moon. This means that it has a higher density and a tougher formation, which just meets Hanyang's needs.

Under Han Yang's direct control, up to a million robots and numerous mechanical equipment landed on the planet, and then, large-scale construction tasks began directly.

At this moment, there is no need to make any cover-ups or have any scruples. After hundreds of years, in the desolate and silent depths of the universe, Han Yang finally unleashed his full engineering power once again.

In about two years, Han Yang built a large-scale and complete industrial base on this dwarf planet, with a total of 1.6 mines and up to 12 various factories.

The number of robots has climbed to tens of billions.

After that, Han Yang directly started the next stage of the mission.

Build planetary thrusters.

Over the years, Han Yang has done this kind of thing, not 100 times, but at least 80 times, so he already has rich experience.

So, in about three years, Han Yang built up to 100 million planetary propulsion bases on this dwarf planet, and the plan successfully progressed to the third stage.

Han Yang began to push the dwarf planet, directly reducing its orbital speed, causing it to fall towards the black hole Gaia BH2. At the same time, it constantly modifies and adjusts its orbital angle to ensure that it can reach the edge of the black hole at the angle and speed it envisions.

Yes, Han Yang is going to push this dwarf planet into the black hole. He just wanted the black hole to swallow up the dwarf planet.

Because only in this way can the black hole be "activated" and enter a violent state from a quiet state, and the high enough energy level needed by Han Yang will appear.

At this moment, the entire hemisphere of the dwarf planet facing away from the black hole is simultaneously covered in bright light. A full million rays of light point straight into space like sharp swords. Its brightness is estimated to be visible even at the level of a third-level civilization hundreds of light-years away. However, Han Yang was not worried that there would be too much movement here to attract the attention of others.

The reason is simple, light travels at the speed of light. The closest civilization to here is about 600 light years away.

In other words, it will take 600 years for them to see the movement here. By that time, Han Yang had already cleared everything away and ensured that no trace would be left.

The vastness of the universe is Han Yang's best cover.

This dwarf planet, as bright as a star, rushed towards the black hole at an extremely angle.

Compared to a black hole with a radius of only 26.4 kilometers, this dwarf planet with a radius of 2000 kilometers is undoubtedly huge, even a giant.

But it's no use. Although it is huge, even if its volume reaches more than 40 times that of this black hole, it will not change its outcome in any way.

Even the red giant star, which is about 1 billion times the size of this black hole, has surrendered obediently to this black hole. You want to make a splash even if it is only 40 times more?

impossible.

When it was nearly 10 million kilometers away from the black hole, the dwarf planet had been directly torn apart.

It was torn directly from the sphere into a long strip, and then began to rotate crazily around the black hole.

Of course, long before it was torn apart, a large number of planetary thrusters built by Han Yang had been destroyed by violent earthquakes.

But it doesn't matter, at this moment, they have completed their mission.

They are meant to be disposable items.

Because it had a specific orbital inclination and speed, after it was torn apart, the material that made up this dwarf planet did not revolve around the black hole safely, but began to approach the black hole uncontrollably, starting a period of interesting things. A journey to no return.

The mass of this dwarf planet is about 100 times the total mass of the material that previously made up the black hole's accretion disk.

At this moment, so much mass suddenly poured in. Because its size was too small after all, the black hole had no time to swallow so much matter. It choked and started "hiccups."

Of course, the so-called hiccups are just a figurative description.

The actual situation is that the closer to the black hole, the more gravitational potential energy will be converted into kinetic energy, making the matter move faster around the black hole.

The fastest can even approach the speed of light.

Such a high speed will inevitably bring about extremely violent friction and collision between materials. This friction and collision will cause the material to have higher energy, thus preventing it from falling further into the black hole.

Therefore, under the influence of the black hole's powerful magnetic field, these materials with the energy to escape from the black hole will be violently ejected along the poles of the black hole.

It's like someone choking on something, coughing violently and then coughing the food out.

This is the jet of a black hole.

Jets usually have extremely high speeds, even close to the speed of light, so they are also called relativistic jets.

Because at this speed, the relativistic effects will be very obvious.

Jets can usually travel extremely far distances, often hundreds of billions of trillions of kilometers. Some extremely powerful jets can even jet tens of thousands of light-years away, which shows how powerful their jets are.

And this is the high-energy environment that Han Yang needs.

Within the theoretical framework that Han Yang has mastered, such a high-energy environment may cause gravity to temporarily unify with the other three basic forces, thereby creating a phenomenon that can be detected from the outside world.

By observing and analyzing this phenomenon, we can further improve the membrane theory and make it truly become the theory of everything, thereby raising Han Yang's technological level to the fourth-level civilization stage in one fell swoop, and making human civilization truly a fourth-level civilization!

Of course, this only makes sense for a being like Han Yang who is just one step away from the fourth-level civilization and has already mastered a deep enough theoretical foundation. If it were other civilizations, even Ziyun, Hematite and other civilizations, even if they observed this phenomenon, they would not know the reason at all, and they would not be able to find out what kind of mystery is hidden in it.

Before the emergence of relativistic jets, Han Yang had already built a large number of observation equipment and aimed them at the black hole.

There are hundreds of large telescopes alone. Optical, infrared, soft X-rays, hard X-rays, gamma rays, gravitational waves, neutrinos, etc.

Some telescopes have even ventured as close as a few hundred thousand kilometers away from the black hole and started observing.

At this distance, the slow clock effect is already quite obvious. The telescope felt that only one day had passed, but the outside world felt that almost a month had passed.

In addition to the impact of time changes, being too close means that the radiation is more intense. Although Han Yang has improved the protective capabilities of these observation equipment as much as possible, they can still only last for an average of 1 to 2 hours - that is, between 30 and 60 hours outside, before they are damaged.

Each of these special telescopes is expensive to build. If measured in human coins, I'm afraid each one would cost hundreds of billions.

But Han Yang built tens of thousands of them, without hesitation at any cost, and smashed them in without any concern at all. He ensured that there were at least three such observation equipment at any time observing from different angles and different time flow rates. Observation of jet expansion.

Under this situation, a large amount of data is generated rapidly. If Han Yang hadn't prepared a supercomputing center and enough hard drives in advance, he might not have had time to record the data.

Han Yang spent decades to generate these data, even pushing a planet to smash it in. It would be a crime to waste any amount of it.

After observing for more than a month, the jet gradually began to weaken and lost the ability to create that high-energy level environment.

There is no way, this dwarf planet is still too small after all. If it were a star, it should last a while longer. It's just that Han Yang doesn't have the ability to push a star.

However, the existing data should be sufficient.

Han Yang then began to analyze the data.

After all-out analysis and analysis, Han Yang discovered something extremely strange.

At certain stages of the jet, the intensity of gamma rays actually fluctuates abnormally.

Although this fluctuation only accounts for about one hundred thousandth of the overall radiation intensity, it is very small and inconspicuous, but this is not normal!

(End of this chapter)