I used space to carry a lot of supplies to escape famine in ancient times

Chapter 235 Time-Space Tunnel Research

Gu Qianning, Chu Mohan and the members of the Treaty Implementation and Supervision Committee have always been committed to promoting exchanges and integration between different civilizations. They are like bright beacons, illuminating the path of mutual understanding and mutual respect among different civilizations in the universe, allowing the flowers of culture to bloom more brilliantly in every corner of the universe.

With the continuous development of interstellar tourism and the increasing frequency of communication between civilizations in the universe, people's desire for more efficient and convenient interstellar travel has become stronger. In this context, studying the possibility of space-time tunnels has become an extremely attractive topic. Space-time tunnels, this mysterious concept, carries people's dream of achieving faster interstellar travel and time travel.

Gu Qianning and Chu Mohan were keenly aware of the importance and potential value of space-time tunnel research. They knew that if they could successfully develop a space-time tunnel, it would not only greatly shorten the time of interstellar travel, but also bring unprecedented development opportunities to various civilizations in the universe. Therefore, they resolutely decided to lead a team of top scientists and engineers to conduct in-depth research on the possibility of space-time tunnels.

The research team first conducted a comprehensive review and analysis of the theoretical basis of space-time tunnels. They studied Einstein's theory of relativity, quantum mechanics and other modern physics theories in depth, trying to find the theoretical basis for the existence of space-time tunnels. After a long period of research and discussion, they found that according to the theory of relativity, space-time can be curved, and in some special cases, this curvature may form a channel connecting two different points in space-time, that is, a space-time tunnel.

However, theoretical basis alone is far from enough. To truly realize the research of space-time tunnels, a series of huge technical challenges need to be overcome. First of all, how to generate enough energy to bend space-time has become the primary problem faced by the research team. According to theoretical calculations, the energy required to form a space-time tunnel is extremely huge, far beyond the current technological level that humans can master.

In order to solve this problem, the research team began to try various methods. They studied advanced technologies such as high-energy particle accelerators and nuclear fusion, hoping to find a way to generate enough energy. At the same time, they are also constantly exploring new forms of energy, such as dark matter energy and zero-point energy, trying to provide new impetus for the study of space-time tunnels.

In addition to the energy problem, the stability of the space-time tunnel is also a technical problem that needs to be solved urgently. According to theoretical predictions, the space-time tunnel is a very unstable structure that may collapse with the slightest disturbance. Therefore, how to ensure the stability of the space-time tunnel has become a challenge that the research team must face.

In order to solve this problem, the research team began to conduct in-depth research on the stability of space-time. Through computer simulation and experimental verification, they tried to find a way to stabilize the space-time tunnel. After a long period of hard work, they found that by constructing a special energy field around the space-time tunnel, the stability of the space-time tunnel can be effectively improved.

However, even if the energy and stability problems are solved, the navigation and control of the space-time tunnel is still a very difficult problem. Since the space-time tunnel connects different points in time and space, how to accurately navigate and control the exit and entrance of the space-time tunnel has become a difficult problem that the research team must solve.

In order to solve this problem, the research team began to study space-time navigation and control technology. They tried to use advanced technologies such as quantum entanglement and gravitational waves to achieve navigation and control of space-time tunnels. At the same time, they are also constantly exploring new navigation and control methods, such as using artificial intelligence and big data analysis technologies to improve the navigation and control accuracy of space-time tunnels.

During the research process, the research team also encountered many other theoretical and technical problems. For example, the problem of time passage in the space-time tunnel, the problem of material transmission in the space-time tunnel, the problem of the impact of the space-time tunnel on the surrounding environment, etc. These problems require in-depth research and discussion by the research team to find effective solutions.

Faced with these huge theoretical and technical challenges, the research team did not back down. With firm belief and tenacious perseverance, they continued to explore and innovate. They organized many academic seminars and technical exchanges, and invited experts and scholars from various fields in the universe to participate in the research of space-time tunnels. Through these exchanges and cooperation, the research team continued to expand their ideas and find new solutions.

Gu Qianning and Chu Mohan have also been paying close attention to the progress of space-time tunnel research. They often communicate and discuss with the research team, providing guidance and support to the research team. They are well aware that the research of space-time tunnel is a task of great significance, which is not only related to the future development of various civilizations in the universe, but also to human understanding and exploration of the universe.

Thanks to the efforts of the research team, the research on space-time tunnels has achieved some preliminary results. They have successfully built a small space-time simulation device, through which they can simulate some basic characteristics of space-time tunnels. Although this device is far from realizing a real space-time tunnel, it provides an important research platform for the research team and lays the foundation for further research.

However, the research team is also aware that there is still a long way to go to truly realize the research on time-space tunnels. They need to constantly overcome various theoretical and technical difficulties and continue to innovate and explore. They believe that as long as they work hard, they will be able to realize the research on time-space tunnels and bring a better future to all civilizations in the universe.

In this universe full of hope and challenges, Gu Qianning, Chu Mohan and the members of the Treaty Implementation Supervisory Committee will continue to lead the research team and work hard to realize the research of time-space tunnels. They know that this is not only a scientific research, but also an exploration and commitment to the future of mankind.

They believe that as long as they persevere in the pursuit of knowledge and truth, they will be able to find solutions to problems. They will continue to innovate and dare to try, break through the shackles of traditional thinking, and explore new areas and ideas. At the same time, they will remain humble and cautious, constantly learning and absorbing the experience and suggestions of others to improve their research results.

In this process, they will face various difficulties and challenges, but they firmly believe that as long as they unite, they can overcome all difficulties. They will support each other, work together, give full play to everyone's advantages and specialties, and jointly overcome difficulties. They know that only in this way can they truly achieve the research goal of the space-time tunnel and contribute to the development of the universe.

In addition, they will actively carry out international cooperation and exchanges, share research results, and promote global scientific and technological progress. Through cooperation with scientists from other countries and regions, they can learn from each other, draw on each other's strengths and weaknesses, and accelerate the research and development of space-time tunnel technology. At the same time, this will also help enhance friendship and mutual trust among countries and promote the formation of a global scientific and technological community.