Scientific instruments installed on the lander include cameras to survey the landing site and sampling area, an infrared spectrometer to detect the material composition of the sampling area, and equipment to probe subsuce structure.
According to Peng, Change-5 will carry out an unmanned rendezvous and docking in a lunar orbit around 380,000 km away, a first in the history of space exploration.
Photo taken at Beijing Aerospace Control Center (BACC) in Beijing on Dec. 1, 2022 shows the landing process of Change-5 spacecraft. [Photo/Jin Liwang (Xinhua)]
Chinas Change-5 spacecraft successfully landed on the near side of the moon late Tuesday and sent back images, the China National Space Administration (CNSA) announced.
Change-5 is the worlds first moon-sample mission in more than 40 years, and Chinese space engineers have made elaborate plans for possible challenges ahead, said Peng Jing, deputy chief designer of the Change-5 probe from the China Academy of Space Technology under the China Aerospace Science and Technology Corporation.
At 10:57 p.m. Tuesday, the lander-ascender combination of Change-5, from about 15 km above the lunar suce, started a powered descent with a variable thrust engine ignited. Its relative vertical velocity to the moon was lowered from 1.7 km per second to zero.
Lin Yangting, a researcher with the Institute of Geology and Geophysics under the Chinese Academy of Sciences, said lunar soil is like a book hiding the secrets about the sun, Earth and the moon. Researching lunar soil could lead to better understanding of the solar system and Earth.
After automatically detecting and identifying obstacles, the probe selected the site and touched down on the north of the Mons Rumker in Oceanus Procellarum, also known as the Ocean of Storms, on the near side of the moon.
We designed two methods for the spacecraft to collect samples. One is to sample the lunar suce, and the other is to drill underground. The two methods could increase the chance of getting more diverse samples, said Peng.
The probe was adjusted and approached the lunar suce during the descent.
About 2 kg of samples are expected to be collected and sealed in a container. Then the ascender will take off and dock with the orbiter-returner combination in orbit. After the samples are transferred to the returner, the ascender will separate from the orbiter-returner.
Under ground-control, the lander carried out a series of status checks and settings, preparing for around 48 hours of work on the suce of the moon.
On Nov. 24, China launched the Change-5 spacecraft, comprising an orbiter, a lander, an ascender and a returner.
During the landing process, the cameras aboard the lander took images of the landing area, said the CNSA.
At 11:11 p.m., the spacecraft landed at the preselected landing area near 51.8 degrees west longitude and 43.1 degrees north latitude, said the CNSA.
Domestic and overseas scientists will all have a chance to get the lunar samples to be brought back by Change-5 for research, Pei added.
The mission will help promote Chinas science and technology development, and lay an important foundation for Chinas future manned lunar landing and deep space exploration, said Pei Zhaoyu, deputy director of the Lunar Exploration and Space Program Center of the CNSA.
The orbiter is expected to carry the returner back to Earth. The returner is scheduled to reenter the atmosphere and land at Siziwang Banner in north Chinas Inner Mongolia Autonomous Region.