Press "Enter" to skip to content

Chinese spacraft successfully lands on moon’s far side and sends pictures back home

image

A picture of the far side of the moon taken by Chang’e 4 this morning.

China National Space Administration

By Dennis Normile

China’s Chang’e-4 spacecraft successfully landed on the far side of the moon this morning Beijing time, accomplishing a worldwide first in lunar exploration. China’s state media confirmed that touchdown occurred at 10:26 am Beijing time; later in the day, the China National Space Administration released the first close-ups of the surface of the far side, taken by Chang’e 4 after it landed.

“It’s a milestone for China’s lunar exploration project,” Yang Yuguang, of the China Aerospace Science & Industry Corporation in Beijing, told China Global Television Network, a state operated English television channel.

The lander carries a rover expected to be deployed sometime Friday China time.

Chang’e-4 was launched 8 December from Xichang Satellite Launch Center in Sichuan Province. The landing site is in the Von Kármán crater in the South Pole-Aitken Basin. The basin was likely formed by a giant asteroid impact that might have brought material from the moon’s upper mantle to the surface; studying samples taken there might offer scientists the chance to learn more about the composition of the body’s interior. The moon’s far side has a much thicker, older crust and is pockmarked by more and deeper craters than the near side, where large dark plains called maria, formed by ancient lava flows, have erased much of the cratering. Chang’e-4’s observations could give clues to the processes behind the differences.

“It’s a milestone for China’s lunar exploration project.” 

Yang Yuguang, China Aerospace Science & Industry Corporation

The lander carries cameras for observations of the terrain and a low frequency spectrometer to study solar bursts. The rover has a panoramic camera, a spectrometer for identifying surface materials and a ground penetrating radar to probe subsurface structures. Sweden, Germany, the Netherlands and Saudi Arabia contributed payloads that will measure radiation and use low frequency radio astronomy to listen for faint signals lingering in the cosmos since the formation of the universe’s first stars, among other things. The lander also carries a minuscule biosphere developed by Chinese universities that will study the low-gravity interaction of a number of plants and silkworms.

Getting to the far side poses engineering challenges, a fact that kept all 27 previous landings on the near side. Direct communications with spacecraft on the far side are blocked by the moon itself. So in May China put a communications relay satellite, named Queqiao, into a loop 65,000 kilometers beyond the moon at Earth-moon Lagrange Point 2, a gravitationally balanced location from which the spacecraft can exchange signals with both Earth and the moon’s far side. So far, the relay system seems to be working well.

China’s lunar program began with orbiting observatories, Chang’e-1 and -2, in 2007 and 2010, respectively. It continued with a near side lander, Chang’e-3, in 2013. (The missions are named after a Chinese moon goddess.) The country will next take on the challenge of returning samples from the moon with Chang’e-5, slated for launch later this year. The craft will attempt to retrieve up to 2 kilograms of soil and rock from the Oceanus Procellarum, a vast lunar mare on the near side that has yet to be visited by any spacecraft. China is studying possible manned moon landings for sometime after 2025.


Source: Science Mag