NUNZIUM

Today the last of the three modules - Mengtian - of the Chinese space station Tiangong (translated as “Celestial Palace”) has successfully left the Earth and reached its orbit, now waiting for the final docking to the other modules. Tiangong will soon be the second permanently inhabited outpost in low-earth orbit after the NASA-led International Space Station. The uncrewed Mengtian - or "Dreaming of the Heavens" - module was launched atop China's most powerful rocket, the Long March 5B, at 3:37 PM from the Wenchang Space Launch Centre in the southern island province of Hainan. The completion of the Chinese space station, designed for a lifespan of at least ten years, will be a milestone in China's ambitions in space exploration. During this time, China has planned more than 1,000 scientific experiments - from studying how plants adapt in space to how fluids behave in microgravity. China has approved at least nine proposals from scientists in countries ranging from Switzerland to India in the first batch of experiments in cooperation with the United Nations space office. Mengtian is a crucial part of the space station as it is the most advanced laboratory module, carrying many advanced instruments. The 17.88-meter-long, 4.2-meter-diameter mega space lab weighs around 23.3 tons by launch - the heaviest payload China has ever launched. Mengtian does not have life support systems like the other two modules Tianhe and Wentian, nor dormitory and restrooms. It is designed as a working zone with 13 cabinets designed to host various experiments mainly in the fields of microgravity, fluid physics, combustion, materials, and space technologies. The Mengtian will also carry the world's first space-based set of cold atomic clocks - a hydrogen clock, a rubidium clock, and an optical clock. If successful, these atomic clocks will form the most precise time and frequency system in space, which should not lose one second in hundreds of millions of years. Scientists explained that the space cold atomic clock technology will contribute to higher-precision satellite positioning, and navigation systems, as well as support fundamental physics research such as dark matter probes and gravitational wave detection. The Tiangong space station will also become a new platform for China to explore and push forward cooperation with other nations.