Chapter 220: The Landscape of the Empire (I)

The ultimatum issued by the Marquis of Timos was only three days, and in the current situation, this was undoubtedly a rather urgent event, after all, if the Tiger Battalion wanted to continue to survive in the Brady system, then Robin was not suitable to have too much conflict with the too powerful Marquis of Timos.

But this does not mean that Robin will give up all his rights in the negotiation process, so he hopes that O95 will try to collect the battle situation of the extragalactic system and the security situation in the viscounts and baronies under the marquis's command in the past three days, in an attempt to clear the details of the Marquis of Dimos, so as to create more favorable conditions for himself in the negotiation process.

If you want to get to the bottom of the Marquis of Emperor Morse in three days, this is definitely an extremely difficult task. However, since Robin had already used his superior insight to create a breakthrough for O95, O95 was able to find out something more or less after concentrating on the direction.

In this process, Xia Zuo also used this time to complete the run-in period with O95, and roughly determined their future positioning by Robin's side.

In the past, because Robin had never had a fixed lieutenant by his side, Xia Zuo had to juggle multiple angles in many cases in order to meet the urgent needs of the fleet, which also led to his lack of accurate positioning in the fleet. Coupled with the fact that his abilities are relatively average in all aspects, he is often seen as a firefighter, handling multiple tasks at the same time.

And now, after having O95, Xia Zuo no longer has to be tied up by these cumbersome affairs.

Through these three days of contact, Xia Zuo has recognized O95's outstanding abilities as a staff officer. In many ways, O95 makes Xia Zuo feel ashamed, which makes Xia Zuo recognize that O95 has the ability to replace himself and stand by Robin's side. After being replaced by O95 as Robin's shadow, Xia Zuo was finally able to stand up and become the second military commander in the team after Robin.

As for O95, he also lived up to the trust of Robin and Xia Zuo. With his familiarity with the Empire, coupled with the information from the 'Gaia' extension, he finally delivered a detailed report to Robin before the ultimatum ended.

Considering that Robin does not have a deep understanding of the Empire and the Brady System, O95 also annotates many basic information in the Empire in detail in this report, so that Robin can make more accurate judgments in the process of reading.

"The current administration of the Empire is not in the Brady system, but in the Polar system? When did this happen? Sitting in his office, carefully reviewing the report handed to him by O95, Robin suddenly looked up and asked.

"2o75, that is, eight years ago."

"What is the reason?" Robin asked, frowning.

"That's because in 2o74, the Royal Academy of Sciences discovered a Kerr black hole in the Polar Galaxy." In stating this reason, o95 clearly flows 1ù out of jī moving god sè.

"Kerr Black Hole ......"

When it comes to black holes, then we have to mention Martin, the father of wormholes? Hervey. In 2o22, Martin, the father of wormholes? Hervey peeked into the mystery of the black hole, thus opening the Age of Discovery. At that time, the equation for the operation of four black holes proposed by him was the theory of the structure of the fourth-order black hole, and he clearly distinguished the operation mode of black holes and the different spatial fine tube limitations between black holes.

If we rank the functions and levels of black holes from low to high, they are binary black holes, r-n black holes, Kerr-Newman black holes, and Kerr black holes.

Among them, binary black holes generally occur in binary star systems and triple galaxies. Due to the large number of stars, these multi-star galaxies tend to cover a very large area, with a much larger radiation area than ordinary galaxies such as the solar system. The black holes that appear within the radiation radius of these galaxies are often smaller, and these black holes are called binary black holes.

In the principle of space, the black hole as the entrance and the white hole as the exit are connected to each other, and together they form a four-dimensional space tube. The black hole, which absorbs positive energy, is responsible for providing the energy needed to maintain the operation of the thin tube of space. Therefore, due to its small size and mass, the energy that binary black holes can sweep is naturally not comparable to that of r-n black holes and Kerr-Newman black holes, and the length of the space tubes that can be maintained is naturally limited, which makes the length of the space tubes relatively short. If a binary black hole is used as the entrance to the transition voyage, the transition distance will be limited to the star system, and the transition between star systems will not be possible like the r-n black hole.

Due to many limitations, the jump distance is too compressed. Binary black holes are labeled as a low-level in the entire black hole family, and the space tube that can be maintained is only the minimum first-class transition channel.

The black holes that appear in the Kuiper rings of the solar system and in the Proxima Centauri field of the triad galaxy are the most common r-n black holes.

R-n black holes are non-rotating charged black holes, and their volume and mass are generally larger than that of binary black holes, and the positive energy they can absorb is naturally much greater than that of binary black holes with many limitations. Therefore, the four-dimensional space tube formed by it is relatively long, which can meet the transition range between star systems, but it is limited by the spiral arm of the Milky Way, so it cannot extend the range to the stars in other spiral arms of the Milky Way. Therefore, in the Transition Navigation Manual, the space tube formed by the R-N black hole is listed as a second-class jump channel.

Above the r-n black hole is the third Kerr-Newman black hole.

The Kerr-Newman black hole, also known as the general black hole, is the most abundant type of black hole in the universe. Its mass and volume are often larger than that of r-n black holes, and the radiation range of the four-dimensional space tube formed is extremely vast, which can cover any white hole in the galaxy, and the four-dimensional space tube network can cover almost any corner of the galaxy without being limited by the spiral arm.

Taking the Kerr-Newman black hole in the Brady galaxy as an example, if you use this black hole as an entrance, you can not only jump directly to the white hole where the R-N black hole in the Kuiper ring in the solar system belongs, but also step out of the Orion Spiral Arm of the Milky Way where the solar system is located, and directly reach any star system in the Centaur arm, Perseus arm, and Swan arm of the Milky Way.

With Brady as its capital, the Hoffman Empire was able to establish a supremacy in the galaxy that no one else could match, and the role of the Kerr-Newman black hole in it was immeasurable. The four-dimensional space tube formed by the Kerr-Newman black hole is also higher than the second-order transition channel of the r-n black hole, and becomes the third-order transition channel.

Above the third-order transition channel is the relatively rare Kerr black hole in the universe.

Kerr black holes are rotating uncharged black holes, and in terms of their size and mass, they are not larger than Kerr-Newman black holes, and even slightly smaller. However, the four-dimensional space tube formed by it is a fourth-order transition channel higher than the Kerr-Newman black hole tube.

Unlike the cobweb-like radiation of the Kerr-Newman black hole, the Kerr black hole does not cover the entire galaxy, but its four-dimensional space tube is much longer than that of the Kerr-Newman black hole, allowing it to break through the limitations of galaxies and reach any large galaxy system of the same level as the Milky Way in the universe.

Therefore, although compared to the Kerr-Newman black hole, the Kerr black hole has a relatively single course. But it is the only high-transition channel capable of connecting large galaxy systems, ... [This chapter is not finished, please click on the next page to continue reading!] ］