Tag: Change4

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BeltAndRoadinitiative #CLEP #July2022 | #VonKarmanCrater #LunarMission #Change4 #Yutu2 travelling 1239.88 meters on #LunaExploration reveal the secrets of the Antarctic-Aiken Basin ……

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As of Month of 7th July 2022, The CNSA –China National Space Administration CLEP- China Lunar Exploration Program  Belt and Road Initiative Lunar Mission……Chang’e-4 with Yutu two the Lunar rover still working exploring more than moved more than 1239.88  meters on the other side of the moon on the 103 Kilometers Diameter Von Karman Crater in which is least than two length by length fifty five Kilometers Hong Kong –Macau- Zhuhai Bridges …. Working Exploring the Crater on the other side of the Moon Chang’e Luna…. Chang’e-4 completed the 44th day of work, and the results revealed the cause of the abnormal area of ​​​​the Moon’s South Pole-Aiken ….composition travelling The “Yutu 2” lunar rover and lander of the Chang’e The total mileage of the lunar rover on the far side of the moon is 1239.88 meters

In which Chang’e-4 research results reveal the secrets of the Antarctic-Aiken Basin The cause of the abnormal area of ​​composition…..

The South Pole-Aiken Basin is the largest impact basin on the Moon, with a diameter of over 2,400 kilometers. The study of the South Pole-Aiken Basin is of great significance for revealing the origin of the lunar asymmetry, the impact process, the early evolution process and the composition of the deep material. Orbital remote sensing observations show that there is a compositional anomaly in the center of the Antarctic-Aiken Basin. The planetary science team of Shandong University analyzed and interpreted the in-situ visible and near-infrared spectral data of the Yutu-2 lunar rover and found that the lunar crust is the Antarctic-Aiken composition anomaly. The main material source provides important constraints for the future exploration of materials in the Antarctic-Aiken Basin and even the deep parts of the moon.


​The main material components on the lunar The material composition at the bottom of the South Pole-Aiken Basin is abnormal, and the content of mafic silicate minerals and iron is significantly higher than that in the peripheral area of ​​the basin (Figure 1).

Figure 1. The distribution of iron and pyroxene content inside and outside the Antarctic-Aiken Basin

Most of the previous studies on the material composition of the Antarctic-Aiken Basin only focused on mafic minerals. Due to the anomalous characteristics of mafic in this region, there has even been a debate about whether the lunar mantle is peridotite or pyroxene. Although according to the lunar magma ocean hypothesis, olivine and pyroxene are the main minerals of the lunar mantle, the plutonic magma intrusion after the formation of the lunar crust can also form rocks rich in olivine or pyroxene in the lunar crust, so olivine is enriched Or pyroxene does not serve as evidence of origin from the lunar mantle. So far, humans have not obtained samples from the Antarctic-Aiken Basin and returned to Earth, and their trace elements and isotopic characteristics cannot be known. Among the material composition information available through remote sensing or in situ detection, the plagioclase content also distinguishes crust-derived and mantle-derived rocks. key indicators.

Figure 2. Mineral composition and source reservoir of Chang’e-4 landing area

​The content of plagioclase in the material of the Antarctic-Aiken composition anomaly area sputtered by the Finsen
Numerical simulation studies believe that during the excavation process of the South Pole-Aiken impact, the lunar crust has been completely stripped, but in the subsequent transformation stage, the collapse of the instantaneous crater wall may cause the lunar crustal material to slip off the bottom of the basin. In addition, other basin impact events after the Antarctic-Aiken impact event also produced a backfilling effect on the bottom of the Antarctic-Aiken Basin, and the exposed lunar mantle material or impact melting products during the formation of the basin is likely to have been diluted by the lunar crust material. Mineralogical and geochemical unmixing analysis results show that the lunar soil on the surface of the anomalous area is composed of about 70% of the lunar crust material and about 30% of the material enriched in iron and incompatible elements.

The first author of this research is postdoctoral fellow Chen Jian of Shandong University, and the corresponding author is Professor Ling Zongcheng, head of the planetary science team of Shandong University and senior researcher of the Center for Excellence in Comparative Planetology, Chinese Academy of Sciences. It was published in The Astrophysical Journal Letters, an international astronomy journal …..

Images and visuals are from their Respectives source CLEP – China Lunar Exploration Project

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BeltAndRoadinitiative #CLEP #January2022 | #VonKarmanCrater #LunarMission #Change4 #Yutu2 Lunar adventuring #LunaExploration 1003 Meters that #MysteriousHut appears to be Life like #JadeRabbit …

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impact craters and “mystery house”

As of Month of January  2022, The CNSA –China National Space Administration CLEP- China Lunar Exploration Program  Belt and Road Initiative Lunar Mission……Chang’e-4 with Yutu two the Lunar rover still working exploring more than 1003.9 meters on the other side of the moon on the 103 Kilometers Diameter Von Karman Crater in which is least than two length by length fifty five Kilometers Hong Kong –Macau- Zhuhai Bridges …. Working Exploring the Crater on the other side of the Moon Chang’e Luna….

In which the cumulative mileage of the Yutu-2 lunar rover exceeded the 1,000-meter mark, revealing the mystery of the “mysterious cabin”] On December 27, 2021, Yutu-2 will wake up and usher in the 38th day of work, and the goal is still to continue heading north . First, the stride Meteor moved three times, 7 meters, 9 meters, and 10 meters. The larger the stride, the total mileage reached 992.3 meters. At this time, there is only about 10 meters left from the “Mystery Cabin”. The mystery of the “hut” was lifted, and the drivers immediately arranged for a panoramic camera to perform color imaging, finally revealing its true appearance!

impact craters and “mystery house”


The “Mysterious Cabin” is like a lifelike rabbit, the scattered stones in front of the “Jade Rabbit” are like a carrot, and the round stone beads behind the “Jade Rabbit” are like the products of the “Jade Rabbit” after a meal. The scene in front of us is like a rabbit about to eat, and the picture is full of fun.

“rabbit” see “rabbit”


At noon on January 6, 2022, the pilots of Yutu No. 2 started the task of the day and afternoon of this month, but everyone worked tirelessly for more than ten hours. Near midnight, the cumulative mileage of Yutu finally broke through the 1,000-meter mark, reaching 1,003.9 meters!
The upcoming January 11, 2022 will be the third anniversary of the Chang’e-4 lander and Yutu-2 completing the mutual shooting of the two vehicles and the complete success of the mission. The latest mileage record is undoubtedly the longest nice gift.

“rabbit” see “rabbit”

Over the past three years, under the precise control of flight controllers, the Chang’e-4 lander, rover, and relay star have completed one arduous task after another, constantly breaking their own records on the way to the back of the moon, and continuing to explore the mysteries of the back of the moon. .
In the next day of the month, Yutu-2 will detect the target rock at close range and perceive the large impact crater behind it. We expect Yutu-2 to make more scientific discoveries.

Images and visuals are from CNSA- China National Space Administration also from there respectives…

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BeltAndRoadinitiative #CLEPS #September 2020 | #VonKarmanCrater #LunarMission#嫦娥 #Change4 #玉兔#Yutu2 #JadeRabbit making another fun learning Luna exploration 5471.20 Meters more #LunaExploration Summary of more than 630-day scientific with more lunar driving…..

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As of 24th September Thursday 2020, The CNSA –China National Space Administration Belt and Road Initiative Lunar Mission on the One Hundred Kilometer diameter Von Karman Crater    Chang’e 4 lander and the “Yutu 2” lunar rover the Chang’e-4 lander and the “Yutu-2” lunar rover… Chang’e 4 lander and “Yutu 2” lunar rover awakened autonomously and entered the 22nd day of work] Today, the Chang’e 4 lander and “Yutu 2” lunar rover, which have been working on the back of the moon for 630 days…..  In following.. The Chang’e-4 lander and the “Yutu-2” lunar rover will finish the 22nd month day work at 7:30 on September 24 and 23:18 on the 23rd, and complete the moon night mode setting according to ground instructions, and enter moon night sleep. Up to now, Chang’e-4 has spent 630 Earth days on the back of the moon and travelled 547.17 meters cumulatively.

Based on the 21st month day panoramic camera stitched images, DOM images and other data, the “Yutu 2” lunar rover mainly travels during the 22nd month day, successively in the impact crater and reflection about 1.3km northwest of the landing site Areas with higher rates were detected.

Researchers have made use of data such as panoramic camera ring-shot detection, infrared imaging spectrometer calibration detection, and simultaneous detection of lunar radar during driving, and obtained a number of scientific results, which were recently published in the International Journal of Nature Astronomy.

The scientific team conducted in-depth research on the radar detection data and obtained important discoveries about the lunar soil and shallow structures in the landing zone. Based on the characteristics of low-frequency radar signals, as shown in Figure 1, the shallow structure of the landing area is divided into three basic units, from top to bottom there are strong reflection units (unit 1), weak reflection units (unit 2), and medium reflection units. Unit (Unit 3). Combining basic constraints such as regional geology and the spatial distribution of large-scale impact craters, the results of the geological interpretation are as follows: Unit 1 (total thickness of about 130m) is the accumulation of sputtering materials near multiple impact craters (including Finsen, Alder, and von Carmen). Impact craters such as L and L’) and the basalt breccia layer at the bottom; unit 2 (total thickness about 110 m) is a basalt layer with multiple eruptions; unit 3 (thickness not less than 200 m) is Leibniz in the north of the landing zone Spatter from impact craters. The high-frequency radar signal further gives the fine structure of the upper part of the unit 1, as shown in Figure 2, which is characterized by the presence of a 12m thick lunar soil layer on the top, which basically does not contain large rocks, and the bottom is a strip of 22m thick Sputters, they are all projectiles from the Finsen impact crater, with a total thickness of 34m.

Fig.1 The detection profile and interpretation result of the low-frequency channel of the lunar radarFig.1 The detection profile and interpretation result of the low-frequency channel of the lunar radar

    The lunar radar carried by the “Yutu-2” lunar rover can obtain the geological section below the driving path and reveal the layered structure of the underground. Because the lunar radar is directly based on the lunar surface for detection, the reflected signal detected by it has large energy and clear characteristics, and the effect is far better than that of spaceborne radars more than 100km away from the lunar surface. Moreover, due to the use of a frequency much higher than 5MHz of the spaceborne radar, its resolution advantage is also very obvious. The main frequencies of the two channels of the lunar radar are 60MHz and 500MHz, the spatial resolution is 10m and 0.3m, and the detection depth is about 50m and 500m. The high-frequency channel is used to detect the high-resolution structure of the shallow lunar soil and its underlying sputter, and the low-frequency channel is used to detect the layered structure of the deep sputter and basalt.

Figure 2 The detection profile and interpretation result of the high-frequency channel of the lunar radar

The shallow structural profile obtained by the lunar radar shows that the lunar material detected by “Yutu 2” comes from the Finsen impact crater, not from the filling basalt of the von Karman impact crater itself; at the same time, the radar profile also reveals the landing area has experienced multiple impacts, sputtering accumulation and multiple basalt magma eruptions filling. These new discoveries are of great significance for understanding the evolution of the Moon’s South Pole-Aiken Basin, and have an important guiding role for the subsequent exploration and study of the composition and structure of the Moon’s internal material.

嫦娥四号着陆器和“玉兔二号”月球车分别于9月24日7时30分、23日23时18分结束第22月昼工作,按地面指令完成月夜模式设置,进入月夜休眠。截至目前,嫦娥四号已在月球背面度过630个地球日,累积行驶547.17米。

基于第21月昼全景相机拼接影像、DOM影像等数据情况,“玉兔二号”月球车在第22月昼期间主要以行驶为主,先后在距离着陆点西北方向约1.3km的撞击坑和反射率较高的区域进行了探测。

科研人员利用全景相机环拍探测、红外成像光谱仪定标探测、测月雷达行驶过程中同步探测等数据,取得多项科学成果,近期发表在Nature Astronomy国际期刊上。

科学团队对雷达探测数据开展了深入研究,获得了着陆区月壤和浅层结构的重要发现。基于低频雷达信号特征,如图1所示,将着陆区的浅层结构划分为三大基本单元,由上往下依次为强反射单元(单元1)、弱反射单元(单元2)和中等反射单元(单元3)。结合区域地质和大型撞击坑的空间分布等基本约束,地质解译结果如下:单元1(总厚度约130m)为临近多个撞击坑的溅射物堆积(包括芬森、阿尔德、冯·卡门L和L’等撞击坑)和底部的玄武岩角砾层;单元2(总厚度约110 m)为多次喷发的玄武岩层;单元3(厚度不小于200 m)为着陆区北部莱布尼兹撞击坑的溅射物。高频雷达信号进一步给出单元1上部的精细结构,如图2所示,其特征为顶部存在厚达12m的月壤层,基本不含大石块,其下为厚达22m的条带状溅射物,它们均是来自芬森撞击坑的抛射物,总厚度达34m。

图1 测月雷达低频通道的探测剖面及解译结果图1 测月雷达低频通道的探测剖面及解译结果

    “玉兔二号”月球车搭载的测月雷达能够获取行驶路径下方的地质剖面,揭示地下的分层结构。由于测月雷达直接基于月面进行探测,因此,其探测到的反射信号能量大,特征清晰,效果远优于距月面100km以上的星载雷达探测。而且,由于采用远高于星载雷达5MHz的主频,其分辨率优势也十分明显。测月雷达两个通道的主频分别为60MHz和500MHz,空间分辨分别为10m和0.3m,探测深度分别约50m和500m。高频通道用于探测浅部月壤及其下伏溅射物的高分辨结构,低频通道用于探测深部溅射物和玄武岩等分层结构。

图2 测月雷达高频通道的探测剖面及解译结果图2 测月雷达高频通道的探测剖面及解译结果

测月雷达所获取的浅层结构剖面表明“玉兔二号”所探测的月面物质来自于芬森撞击坑,而不是来自冯·卡门撞击坑自身的充填玄武岩;同时,该雷达剖面还揭示了着陆区经历多期次的撞击溅射堆积和多期次玄武岩浆喷发充填。这些新发现对于认识月球南极-艾肯盆地的演化具有非常重要的意义,对于月球内部物质组成和结构的后续探测与研究有重要指导作用。

 

Images and Visuals are from Weibo… 

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BeltAndRoadinitiative #CLEPS #September 2020 | #VonKarmanCrater #LunarMission#嫦娥 #Change4 #玉兔#Yutu2 #JadeRabbit making another Luna exploration 520 Meters more #LunaExploration Summary of more than 618-day scientific with more lunar driving…..

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As of 11th September 2020, The CNSA –China National Space Administration Belt and Road Initiative Lunar Mission on the One Hundred Kilometre diameter Von Karman Crater    Chang’e 4 lander and the “Yutu 2” lunar rover the Chang’e-4 lander and the “Yutu-2” lunar rover… Chang’e 4 lander and “Yutu 2” lunar rover awakened autonomously and entered the 22nd day of work] Today, the Chang’e 4 lander and “Yutu 2” lunar rover, which have been working on the back of the moon for 618 days…..

Once again Wake up independently by light, at 5:15 on September 12th and 11:54 on September 11th 2020, ushering in the 22nd day of work…..Based on data such as panoramic camera stitching images and DOM images, the “Yutu-2” lunar rover will drive toward the basalt or impact crater area with high reflectivity during the 22nd day of the month. The current detection point is about 83m from the nearest impact crater, and there is a degenerated impact crater with a diameter of about 160m on the south side of the impact crater of the One Hundred Kilometre diameter Von Karman Crater…..

Has the exploration continues  there is a degenerated impact crater with a diameter of about 160m on the south side of the impact crater. Both locations are located to the northwest of the current detection point. The “Yutu-2” lunar rover will conduct scientific exploration of these two impact craters during the day of this month. At that time, the panoramic camera, infrared imaging spectrometer, and neutral atom detector will be turned on one after another and the moon-measuring radar will simultaneously carry out detection during driving. Related scientific results will be released in time….

 

【“嫦娥”“玉兔”自主唤醒,进入第22月昼工作期】已在月球背面工作618天的嫦娥四号着陆器和“玉兔二号”月球车,再次受光照自主唤醒,分别于9月12日5时15分和9月11日11时54分,迎来第22月昼工作期。“玉兔二号”在第22月昼期间将向玄武岩或反射率较高的撞击坑区域行驶,并对其中两个撞击坑开展科学探测。届时,全景相机、红外成像光谱仪、中性原子探测仪将陆续开机,行驶过程中测月雷达同步开展探测。相关科学成果将及时发布。(来源:中国探月工程)

Images and visuals are from Weibo