视频加载中,请稍候…
自动播放
play
“祝融号”火星车驶离着陆平台,传回火星表面最新影像
向后
The simulated image captured at the Beijing Aerospace Control Center on May 22, 2021 shows China’s first Mars rover, Zhurong, driving down from its landing platform to the Martian surface, Beijing, capital of China. China’s first Mars rover, Zhurong, drove down from its landing platform to the Martian surface Saturday, leaving the country’s first “footprints” on the red planet. Zhurong’s first successful drive made China the second country after the United States to land and operate a rover on Mars. (Xinhua/Jin Liwang)
Ye Peijian (2nd R), academician of the Chinese Academy of Sciences (CAS) and senior spacecraft expert, talks with space experts after China’s first Mars rover, Zhurong, driving down from its landing platform to the Martian surface, at the Beijing Aerospace Control Center in Beijing, capital of China, May 22, 2021. China’s first Mars rover, Zhurong, drove down from its landing platform to the Martian surface Saturday, leaving the country’s first “footprints” on the red planet. Zhurong’s first successful drive made China the second country after the United States to land and operate a rover on Mars. (Xinhua/Jin Liwang)
Technical personnel moniter the process of China’s first Mars rover, Zhurong, driving down from its landing platform to the Martian surface at the Beijing Aerospace Control Center in Beijing, capital of China, May 22, 2021. China’s first Mars rover, Zhurong, drove down from its landing platform to the Martian surface Saturday, leaving the country’s first “footprints” on the red planet. Zhurong’s first successful drive made China the second country after the United States to land and operate a rover on Mars. (Xinhua/Jin Liwang)
A staff member records the process of China’s first Mars rover, Zhurong, driving down from its landing platform to the Martian surface from the screen at the Beijing Aerospace Control Center in Beijing, capital of China, May 22, 2021. China’s first Mars rover, Zhurong, drove down from its landing platform to the Martian surface Saturday, leaving the country’s first “footprints” on the red planet. Zhurong’s first successful drive made China the second country after the United States to land and operate a rover on Mars. (Xinhua/Jin Liwang)
BEIJING, May 22 (Xinhua) — China’s first Mars rover, Zhurong, drove down from its landing platform to the Martian surface Saturday, leaving the country’s first “footprints” on the red planet.
Zhurong’s first successful drive made China the second country after the United States to land and operate a rover on Mars.
The six-wheeled solar-powered rover, resembling a blue butterfly and with a mass of 240 kg, slowly trundled off a ramp on the lander to hit the red, sandy soil of Mars, starting its journey to explore the fourth planet from the sun.
According to the telemetry data, Zhurong set its wheels on Martian soil at 10:40 a.m. (Beijing Time) on Saturday, the China National Space Administration (CNSA) said.
China’s Tianwen-1 mission, consisting of an orbiter, a lander, and a rover, was launched on July 23, 2020. The lander carrying the rover touched down in the southern part of Utopia Planitia, a vast plain on the northern hemisphere of Mars, on May 15.
The rover Zhurong is named after the god of fire in ancient Chinese mythology. The name echoes with the Chinese name for the red planet, Huoxing (the planet of fire), while the name of the mission, Tianwen, means Questions to Heaven, the title of a poem by the ancient Chinese poet Qu Yuan (circa 340-278 BC).
With an expected lifespan of at least 90 Martian days (about three months on Earth), Zhurong will record the Martian landscape with high-resolution three-dimensional images, analyze the material composition of the planet’s surface, detect its sub-surface structure and magnetic field, search for traces of water ice and observe the surrounding meteorological environment.
It carries various scientific instruments, including terrain camera, multi-spectral camera, sub-surface exploration radar, surface-composition detector, magnetic-field detector, and meteorology monitor.
The orbiter, with a design life of one Martian year (about 687 days on Earth), will relay communications for the rover while conducting its own scientific detection operations.
Compared with China’s lunar rover Yutu (Jade Rabbit), Zhurong has a similar speed of about 200 meters per hour, but the height of the obstacles it can surmount increased from 20 cm to 30 cm. It can climb slopes up to 20 degrees. Zhurong’s six wheels are independently driven, according to its designers.
The United States has deployed five rovers on Mars. As a latecomer, Zhurong has unique characteristics.
It is the first Mars rover with an active suspension system. It could help the rover get out of trouble by moving like an inchworm on the complicated Martian surface with both loose sandy soil and densely distributed rocks, said Jia Yang, deputy chief designer of the Tianwen-1 probe, from the China Academy of Space Technology.
Zhurong can also walk sideways like a crab. Each of its six wheels can turn in any direction, which could be used for avoiding obstacles and climbing slopes.
Mars is farther away from the sun than Earth and the moon, and the Martian atmosphere also reduces sunlight, so the solar panels of the Mars rover are about twice that of the lunar rover. They need to be rotatable to follow the sun, said Geng Yan, an official at the Lunar Exploration and Space Program Center of the CNSA.
Zhurong’s solar panels were specially designed to adapt to the sunlight on Mars, which has a spectrum different from that on the Earth’s orbit, Geng said.
Mars is notorious for its sand storms, and the dust could reduce the efficiency of power generation. The specially processed solar panels make it difficult for dust to accumulate, just like the water drops on the lotus leaf, which can be blown away by the wind, Geng said.
Part of the power generated by the solar panels during the daytime will be used for work, and the rest will be stored in batteries for night use.
In addition, the designers creatively installed heat collection windows on the rover, which could absorb solar energy in the daytime and release heat at night to help the rover survive the freezing temperatures which could plunge to over 100 degrees Celsius below zero before dawn. Enditem