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

In the journey of exploring the vast universe, the scientific research team led by Gu Qianning and Chu Mohan, in their in-depth exploration of wormholes, seemed to finally see the light after groping in the darkness for a long time. They successfully achieved a new breakthrough that shocked the scientific community and even the whole world - they discovered an unprecedented method to stabilize wormholes. This discovery is like a magical key, quietly opening the door to ultra-long-distance interstellar travel and space jumps, paving a hopeful path for humans to touch the endless mysteries deep in the universe.

Wormholes, a dreamlike existence in the field of cosmology, have long been shrouded in mystery. In theory, as a shortcut connecting different time and space regions of the universe, it is like a mysterious space-time tunnel hidden in the depths of the universe, which can enable objects to cross unimaginable distances in an instant, thus achieving an amazing leap in interstellar travel. However, the extreme instability of wormholes is like an insurmountable natural barrier, ruthlessly blocking the way for humans to enter a new era of interstellar travel. It is like a shaky old bridge that may collapse and dissipate in the turbulent waves of time and space at any time, making all past hopes and aspirations come to nothing.

Gu Qianning and Chu Mohan are well aware of the difficulties and obstacles in wormhole research, but with their ardent desire for the truth of the universe and their fearless courage, they resolutely plunge into it, vowing to open up a new path in this mysterious field. In the laboratory of the scientific research team, the atmosphere is tense and full of expectations, and various advanced instruments and equipment are flashing with cold light, as if silently telling that they are about to witness the arrival of a great moment.

The discovery of this epoch-making method of stabilizing wormholes originated from an experimental exploration that seemed accidental but contained inevitability. In a detailed observation of a high-energy particle collision experiment, the scientific research team keenly captured a set of unusual and peculiar data fluctuations. These data, like mysterious signals flickering in the night sky, instantly attracted the team members' high attention and vigilance. Like experienced explorers, they keenly realized that this might be a faint call from the mystery of the wormhole hidden deep in the universe.

The scientific research team quickly launched a comprehensive and in-depth study and analysis of this abnormal phenomenon. They used complex and precise mathematical models, like a skilled craftsman weaving a fine net, to try to sort out the laws and clues hidden in the complex ocean of data; with the help of the powerful computing power of supercomputers, they processed and simulated massive amounts of data at high speed, just like chasing the fleeting and strange trajectory in the vast cosmic star map. With unremitting efforts and in-depth exploration, they gradually uncovered the amazing secrets behind this phenomenon.

It turns out that in a specific high-energy particle collision environment, a very special energy field is generated. This energy field is like a magical adhesive that can interact wonderfully with the originally turbulent and ever-changing space-time structure inside the wormhole, thereby effectively suppressing the collapse trend of the wormhole and significantly improving its stability. This discovery made the members of the scientific research team very excited, as if they had finally grasped the candle that could light up the light of hope after groping in the dark for a long time.

In order to further verify the reliability and feasibility of this discovery, the research team carefully designed and carried out a series of more rigorous and detailed experiments. They built an experimental device in the laboratory that highly simulated the real environment of the universe, used a powerful energy generator to generate specific high-energy particle beams, and precisely controlled the parameters and conditions of particle collisions, just like a skilled pianist playing a harmonious and mysterious movement on the strings of the universe.

In a key experiment, the research team successfully created a short-lived but relatively stable wormhole model at a microscopic scale. When the wormhole model, shining with strange light, slowly emerged in the experimental device, the whole laboratory was enveloped in a tense and exciting atmosphere. The researchers gathered around the observation instrument, staring at the wormhole data and images displayed on the screen, and dared not make a sound, for fear that the slightest movement would disturb this hard-won cosmic miracle.

Through careful observation and precise measurement of the wormhole model, the research team obtained a large amount of valuable data and information. They were pleasantly surprised to find that under the action of the special energy field, the life of the wormhole was significantly extended, and the space-time structure inside it became relatively stable, no longer as fragile and ephemeral as before. This series of experimental results undoubtedly provided solid and strong evidence for their discovery, and also filled the hearts of the entire research team with joy and pride.

However, Gu Qianning and Chu Mohan were not satisfied with this. They clearly realized that the current achievements were only preliminary breakthroughs in the laboratory environment. If they wanted to truly apply the method of stabilizing wormholes to actual interstellar travel and space jumps, there was still a long and arduous road to go.

First of all, how to accurately create the required special energy field in the macroscopic cosmic environment and make it work effectively in the wormhole is a difficult problem that needs to be solved. The complexity and uncertainty of the cosmic environment far exceeds the simulation range of the laboratory. Various unknown factors and interferences are like reefs hidden in the dark, which may cause their plans to run aground at any time.

Secondly, even if the wormhole can be successfully stabilized, how to ensure the safety and reliability of the wormhole travel process is also a crucial issue. The space-time structure inside the wormhole is still full of unknowns and mysteries. Ultra-long-distance interstellar travel may encounter various unpredictable dangers and challenges, such as space-time turbulence, energy storms, etc. These are like ferocious beasts hidden in the depths of the universe, threatening the life safety and navigation of travelers.

Faced with these severe challenges, Gu Qianning and Chu Mohan led the scientific research team to conduct more in-depth and extensive research and discussion. They actively cooperated with top scientific research institutions around the world, shared research results and resources, and gathered wisdom and strength from all parties, just like trickles of water converge into a surging river, to jointly overcome the many difficulties in wormhole research.

In the study of the method of creating special energy fields in the macroscopic cosmic environment, the scientific research team combined knowledge from multiple disciplines such as astronomy, physics, and engineering to propose a series of innovative theories and ideas. They plan to use huge energy collection devices, such as energy satellite arrays orbiting stars, to collect abundant energy resources in the universe and convert them into energy beams of specific frequency and intensity. Then, through precise spatial positioning and emission technology, the energy beams are focused on the area where the wormhole is located, thereby creating the special energy field required to stabilize the wormhole.

In order to ensure the safety of wormhole travel, the research team is also committed to developing a series of advanced protection technologies and navigation systems. They designed a high-strength protective shield that can withstand the impact of space-time turbulence and energy storms, just like putting on an indestructible armor for travelers; they developed an ultra-precise navigation system based on the principle of quantum entanglement, which can accurately locate the route in the complex and ever-changing wormhole space-time structure, and guide the direction for travelers, making them have a bright lighthouse in the vast ocean of the universe.

During this long and arduous research process, Gu Qianning and Chu Mohan always set an example and shared the joys and sorrows with the members of the scientific research team. They often worked in the laboratory for several consecutive days, analyzing data, debugging equipment, and discussing plans without sleep and food. Gu Qianning, with her delicate and keen observation and perseverance, can always find those neglected subtle clues when the research is in trouble, and point out the direction for the team to move forward; while Chu Mohan, with his profound theoretical knowledge and extraordinary leadership, effectively coordinates the resources and forces of all parties to promote the steady development of research work.

As time goes by, with the unremitting efforts of the scientific research team, they have gradually made more significant progress in the field of wormhole research. Although there is still a long way to go to achieve true ultra-long-distance interstellar travel and space jumps, every achievement they have made is like lighting a bright light in the dark universe, illuminating the direction for the future exploration of the universe by mankind.

Gu Qianning and Chu Mohan stood on the observation deck of the scientific research base, looking up at the vast starry sky. The bright stars were like gems inlaid on the sky, emitting a mysterious and attractive light. They knew that in this endless starry sky, there were countless mysteries and challenges waiting for them to uncover and conquer. The breakthrough in wormhole research was just an important milestone in their journey of cosmic exploration. In the days to come, they will continue to work together and lead the scientific research team to bravely move forward into the depths of the universe, to pursue the more distant and mysterious cosmic truth, and to open doors to a new era of the universe for mankind.