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Chang’e 4 launches China’s bid to be first on dark side of the moon

Chang'e No. 4 lunar probe successfully entered the lunar orbit
12-12 18:09 CCTV News
At 16:45 today, the No. 4 detector ended the transfer of the monthly transfer section, successfully completed the near-month braking as planned, and successfully entered the orbit of the moon. At present, the detector is balanced in power and operates normally. Subsequent will take the opportunity to carry out the work of the monthly relay in-orbit test and the monthly orbit correction.

Near-month braking is a key orbital control during the lunar probe flight. When the detector flies near the moon, its relative speed is higher than the moon escape speed (2.38 km / s), and effective deceleration braking is essential for the detector to enter the intended transfer orbit. If the deceleration is unsuccessful, the detector will not be effectively captured by the lunar gravity and will fly away from the moon. (CCTV reporter Wu Jie Wang Shiyu).
 
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China's Chang'e-4 probe enters lunar orbit

Xinhua, December 12, 2018

China's Chang'e-4 probe decelerated and entered the lunar orbit Wednesday, completing a vital step on its way to make the first-ever soft landing on the far side of the moon, the China National Space Administration (CNSA) announced.

After flying about 110 hours from earth, an engine on the probe was ignited when it was 129 km above the surface of the moon, in line with instructions sent from a control center in Beijing at 4:39 p.m., and then the probe slowed and entered an elliptical lunar orbit with the perilune at about 100 km at 4:45 p.m., said CNSA.

The probe, including a lander and a rover, was launched by a Long March-3B carrier rocket last Saturday from the Xichang Satellite Launch Center in southwest China's Sichuan Province, opening a new chapter in lunar exploration.

As the rocket was able to send the probe into orbit precisely as planned, the control center only adjusted the probe's orbit once on Sunday and also canceled two pre-planned orbit trimmings before the near-moon deceleration, CNSA said.

Next, the control center will adjust the probe's orbit around the moon and test the communication link between the probe and the relay satellite "Queqiao," which is operating in the halo orbit around the second Lagrangian (L2) point of the earth-moon system.

Afterward, the control center will choose a proper time to land the probe on the far side of the moon, according to CNSA.

Since the moon's revolution cycle is the same as its rotation cycle, the same side always faces the earth. The other face, most of which cannot be seen from earth, is called the far side or dark side, not because it's dark, but because most of it remains unknown.

The Chang'e-4 mission will be a key step in revealing the mysterious far side of the moon.

The scientific tasks of the Chang'e-4 mission include low-frequency radio astronomical observation, surveying the terrain and landforms, detecting the mineral composition and shallow lunar surface structure, and measuring the neutron radiation and neutral atoms to study the environment on the far side of the moon, according to CNSA.

China has promoted international cooperation in its lunar exploration program, with four scientific payloads of the Chang'e-4 mission developed by scientists from the Netherlands, Germany, Sweden and Saudi Arabia.

http://www.china.org.cn/china/2018-12/12/content_74268440.htm
 
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China's Chang'e-4 lunar probe successfully brakes for lunar orbiting

CGTN
2018-12-12

2e38f1f9f66047479becb46e272faa1e.jpg


China's Chang'e-4 lunar probe successfully decelerated near the Moon and entered the lunar orbit, completing a vital step before making the first-ever soft landing on the far side of the Moon, space authorities announced on Wednesday.

After flying about 110 hours towards the Moon, the probe successfully conducted the "space braking" and entered an elliptical lunar orbit with the perilune at about 100 km at 4:45 p.m. Beijing time, said China National Space Administration (CNSA).

Perilune braking is a crucial orbital control during lunar probe flight. The probe decelerated near the Moon, making its velocity slower than the Moon's escape velocity before the lunar orbit insertion.

In line with instructions sent from a control center in Beijing at 4:39 p.m., an engine on the probe was ignited when it was 129 km above the surface of the moon. The engine shut down normally after five minutes.

The real-time telemetry data monitoring showed the Chang'e-4 probe has successfully entered the orbit.

The probe, including a lander and a rover,
was launched by a Long March-3B carrier rocket last Saturday from the Xichang Satellite Launch Center in southwest China's Sichuan Province, opening a new chapter in lunar exploration.

528bcca35bf24222898584efef68da8e.jpg

The simulation of the lander on the Moon /VCG Photo

As the rocket was able to send the probe into orbit precisely as planned, the control center only adjusted the probe's orbit once on Sunday and also canceled two pre-planned orbit trimmings before the near-moon deceleration, CNSA said.

Next, the control center will adjust the probe's orbit around the moon and test the communication link between the probe and the relay satellite "Queqiao", which is operating in the halo orbit around the second Lagrangian (L2) point of the earth-moon system.

Afterward, the control center will choose a proper time to land the probe on the far side of the moon, according to CNSA.

362c05b8d2894003a4ac2f43702ed9d9.jpg

The simulation of the rover on the Moon /VCG Photo

The Chang'e-4 mission will be a key step in revealing the mysterious far side of the moon.

The scientific tasks of the Chang'e-4 mission include low-frequency radio astronomical observation, surveying the terrain and landforms, detecting the mineral composition and shallow lunar surface structure, and measuring the neutron radiation and neutral atoms to study the environment on the far side of the moon, according to CNSA.

China has promoted international cooperation in its lunar exploration program, with four scientific payloads of the Chang'e-4 mission developed by scientists from the Netherlands, Germany, Sweden and Saudi Arabia.

(Cover: China's Chang'e-4 probe launched by a Long March-3B carrier rocket, December 8 /VCG Photo)

(With input from Xinhua News Agency)
 
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Luyuan Xu • December 12, 2018
Chang’e-4 Successfully Enters Lunar Orbit | The Planetary Society
Next stop: the Lunar Farside

China’s Chang’e-4 lunar mission, the first-ever soft-landing endeavor on the lunar farside, launched successfully on 8 December at 02:23 Beijing time (7 December at 18:23 UTC) via a Long March 3B rocket from Xichang Satellite Launch Center. The launch carried a lander and a rover toward the Moon. On 12 December at 8:45 Beijing time (16:45 UTC), the spacecraft arrived in lunar orbit, preparing for a landing in early January.

CNSA
CHANG'E-4 LANDER AND ROVER

Four-day journey to the Moon
The launch placed Chang’e-4 directly into a 200- by 420,000-kilometer Earth-Moon transfer orbit, similar to the paths of Chang’e-2, -3 and Queqiao. (Chang’e-1 orbited Earth 3 times before moving to an Earth-Moon transfer orbit). This type of transfer orbit typically takes 4 to 5 days, and navigators plan 2 or 3 trajectory correction maneuvers (TCMs) to adjust the path. Actually, Chang’e-4 required only one TCM:

  • The first TCM, which was planned for 8 December at about 19:42 Beijing time (11:42 UTC), was canceled because the trajectory was deemed accurate enough.
  • The second TCM was carried out on 9 December at 16:42 Beijing time December 9 (8:42 UTC).
  • The third TCM, which was planned for about 24 hours ahead of the braking maneuver (11 December at about 16:42 Beijing time or 8:42 UTC), was also canceled because the second maneuver had placed the vehicle on an accurate enough trajectory.
Canceling maneuvers leaves reserve fuel on the spacecraft for the landing phase.

During the Earth-Moon transfer phase, amateur radio astronomer Scott Tilley tracked Chang’e-4 several times. For example, he told us Chang’e-4 was about 366,000 kilometers away from Earth on 11 December at about 05:40 Beijing time (10 December at 21:40 UTC) and was on its expected orbit. (He is also keeping tabs on Chang'e-5 T1, still communicating with Earth from a stable lunar orbit.)


Scott Tilley@coastal8049

AOS of #ChangE4 for today just a few minutes ago as it rises above the forest here. At about 366000 Km distance her signal is getting weaker but she's still on track for her arrival in lunar orbit. GL CE4!
5:41 AM - Dec 11, 2018
See Scott Tilley's other Tweets
Today, the China National Space Agency (CNSA) announced successful lunar orbit insertion via Xinhua news. The command for the braking maneuver burn was issued on 12 December at 16:39 Beijing time (08:39 UTC), and Chang’e-4 successfully inserted into lunar orbit with a perilune of about 100 kilometers at 16:45 (8:45 UTC).

Waiting for the morning
Now that Chang’e-4 has already entered lunar orbit, why is it waiting 20 more days to land? There are probably several reasons.

Engineers have work yet to do to prepare for landing. They will test instruments, test the relay link with Queqiao, and so on. They may need to adjust the orbit in order to better target the landing, which must be more precise on the rugged farside than Chang’e-3’s in the flat nearside maria.

They also have to wait for the Sun to rise in the landing region. The far side of the Moon is not the “dark side”, it has daytime and nighttime as we do. The difference is one lunar day is much longer, with about 14 earth days of daytime and about 14 earth days of nighttime.

You can check to see where it is day and night on the Moon easily at the Lunar Reconnaissance Orbiter QuickMap website. Open up the Layers tab, choose “Overlays,” and then tap the “Sunlit Region” button.

Here is the day and night region of lunar farside (left) and nearside (right) on 12 December at about 17:00 Beijing time (9:00 UTC). You can see that night is about to fall across the South Pole-Aiken Basin region, the target region of Chang’e-4’s landing.

Made from Lunar Reconnaissance Orbiter QuickMap database.

APPROACHING NIGHTFALL ON THE SOUTH POLE-AITKEN BASIN
Red arrows show the direction of shadow motion.​

The Sun will rise again around the New Year, so Chang’e-4 will probably land in the first few days of January 2019. The slow pace of sunrise and sunset will control the activity of Chang’e-4’s rover. Recall that the Chang’e-3 rover, Yutu, could not work at night due to the cold environment. It first roved onto the surface on 15 December 2013 and stopped on 24 December as the sun set. It resumed activity on 11 January 2014 when daytime returned.

Preparing to Land
The 180-kilometer-diameter crater Von Kármán (centered at 44.8°S 175.9°E) inside the South Pole-Aiken Basin seems to be the most likely landing site, although there seem to be other potential sites. But no matter where the exact location is, one thing is for sure: the topography of the landing site is much more rugged and complex than the flat Mare Imbrium, the landing site of Chang’e-3.

According to the reports on Chinese television, the landing of Chang’e-4 is much more challenging and risky than Chang’e-3 because of the difficult topography. The lander has to autonomously assess its altitude and velocity relative to the surface in order to land safely, which is why landing regions that are flat over a broad area are preferred.

Therefore, the landing strategy of Chang’e-4 will be a little different from Chang’e-3. Chang’e-4’s approach to landing will be much steeper, compared to the shallow landing trajectory of Chang’e-3.


CACS

CHANG'E-4'S DESCENT TRAJECTORY
Compared to launch and orbit insertion, landing will be the real challenge for Chang’e-4. Hope everything goes well!
 
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