The freezing night in Siberia has finally come to an end. The weather today is exceptionally clear, the sky is a brilliant blue, and the slight breeze seems to be able to pick up on the fragrant lake breath of Lake Baikal, which is a welcome sight. The only drawback is that it is extremely cold here.
After breakfast, Alex sat in his tent, flipping through some of the materials he had brought with him. After some time had passed, Alex exclaimed, "Virat?"
"I'm here," Virat announced as he walked through the curtain.
"Let's get this party started." "It's past time to go back," Alex stated.
"Can you tell me where you're going?"
"Let's go to Equator City," Alex suggested after a few minutes of deliberation.
Equator City is not a city in the traditional sense; it has an area that is larger than a country. Within the newly divided geographical area, the government has divided all of the oceans, mountains, rivers, and land belonging to the tropical area, as well as all of the land belonging to the tropical area, within the boundaries of the Equator City. It is a vast area centered on the equator that begins at the equator and extends 2,500 kilometers south to north, with a total width of 5,000 kilometers. It begins at the equator and extends 2,500 kilometers south to north, with a total width of 5,000 kilometers. The total land area of this region is estimated to be as large as 200 million square kilometers. Without a doubt, this includes all terrain types, including mountains, deserts, oceans, and a variety of other uninhabitable terrains. Following the removal of these locations, the habitable area is reduced to less than 40 million square kilometers.
Everything human beings have to offer in terms of resources and construction capabilities is geared toward the 40 million square kilometers of land.
"All right, I'll make the necessary arrangements." Virat nodded and turned to walk away from the table.
"Leave it to someone else to plan the itinerary, Virat; I have something to ask you." "Leave it to someone else to plan the itinerary, Virat." Alex shared his thoughts.
Virat returned to Alex's tent after giving instructions to the other members of the team he was working with.
"Over the course of this period of time... How far has our human society's investigation into the sun progressed? Is there anything else you think I should know?"
"A lot has happened in the last month or so," says the author. Virat bowed his head and said, "Let's start with a discussion of solar exploration. We have achieved this through the efforts of many telescopes, probes, and researchers. Early on in its development, scientists studied the physical process that occurs on the surface of the sun's low-temperature material belt, and they even attempted to replicate the process in the laboratory."
"Oh? Is there such a significant breakthrough? Please show me the relevant information as soon as possible."
Virat smiled and nodded. It appears that he had long anticipated that Alex would encounter such a problem, and as a result, he had the necessary materials ready first thing in the morning. As soon as Alex made the request, Virat reached into his arms and pulled out a stack of documents, which he then handed to Alex.
Alex finished reading this document in approximately half an hour.
There is a detailed listing of the reaction process, physical equations, and reaction models on the data sheet. Because of Alex's scientific literacy, it is not difficult to comprehend this information.
Put another way, the physical process is as follows: under the extreme conditions found on the surface of the sun, nuclear fusion reactions may also occur in thin matter, resulting in the formation of plasma. It's just that this type of fusion is distinct from the core fusion that sustains the sun's scorching heat and radiation. Fusion is accomplished without the use of hydrogen or helium as raw materials, but rather with the use of an element that is heavier than these two elements as a raw material.
Energy is released in the fusion reaction chain when elements lighter than iron fuse together, while energy is captured in the fusion reaction chain when elements heavier than iron fuse together, including iron. Of course, this is under normal circumstances, and the nuclear fusion process currently taking place on the sun's surface is a completely different story. Despite the fact that they are lighter than iron, the raw materials used in fusion actually absorb rather than release energy.
By physicists, this fusion mode is referred to as "reverse fusion."
When it comes to the reasons for reverse fusion, it involves an obscure and obscure physical mechanism of the microscopic world, which physicists are still trying to figure out. Simply put, they are aware that reverse fusion does exist and that it is taking place directly above the solar surface.