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Insight-HXMT Gives Insight into Origin of Fast Radio Bursts----Chinese Academy of Sciences
Editor: LIU Jia | Feb 19, 2021

The latest observations from Insight-HXMT were published online in Nature Astronomy on Feb. 18. Insight-HXMT has discovered the very first X-ray burst associated with a fast radio burst (FRB) and has identified that it originated from soft-gamma repeater (SGR) J1935+2154, which is a magnetar in our Milky Way.

Insight-HXMT is the first to identify the double-spike structure of this X-ray burst as the high energy counterpart of FRB 200428. This discovery, together with results from other telescopes, proves that FRBs can come from magnetar bursts, thus resolving the longstanding puzzle concerning the origin of FRBs.

These results from Insight-HXMT also help explain the emission mechanism of FRBs, as well as the trigger mechanism of magnetar bursts.

This work was conducted by scientists from the Institute of High Energy Physics (IHEP) of the Chinese Academy of Sciences, Beijing Normal University, University of Nevada Las Vegas, Tsinghua University and other institutions.

FRBs, first discovered in 2007, are a great mystery in astronomy. They release a huge amount of energy in only several milliseconds. About a hundred such events have been detected in different regions of our universe. Moreover, repeated FRBs have been found from the same direction.

Considering the narrow field of view of radio telescopes, the event rate of FRBs is very high: Every day thousands of such bursts reach Earth. However, before this discovery by Insight-HXMT and several other space X-ray instruments, no FRB radiation at any other wavelength had ever been detected, and all FRBs with fairly good localization were from distant extragalactic sources, whose identity and nature are yet unknown. The origin and mechanisms of such mysterious phenomena constitute one of the biggest questions in astronomy today.

Scientists have proposed many models to explain the physical origin of FRBs, such as the merger of two compact objects, the collapse of a compact star, magnetar bursts, the collision of a neutron star and an asteroid, or even signals from aliens. In recent years, more observations have revealed more properties of FRBs, intensifying the debate on their origin.

In order to understand the nature of FRBs, we need to answer two questions: What is the source of FRBs, and what do FRBs look like in other wavebands?

On April 28, 2020 at 14:34 GMT, the Canadian CHIME experiment and the STARE2 experiment in the U.S. independently detected a very bright FRB, which was named FRB 200428. It came from roughly the same direction as the Galactic magnetar SGR J1935+2154. Based on the FRB’s dispersion measurement, the source of this FRB was located about 30,000 light-years away, which approximately agrees with the distance to SGR J1935+2154.

Magnetars are a group of neutron stars with extreme surface magnetic fields that are around 100 trillions of times stronger than the Earth’s magnetic field. When it’s active, a magnetar can emit bright short X-ray bursts. Therefore, theorists speculate that magnetars can also emit FRBs. In mid-April 2020, SGR J1935+2154 entered a new active period and hundreds of X-ray bursts were released.

In response to this opportunity, Insight-HXMT changed its observation plan and began a very long-duration pointing observation of SGR J1935+2154. About 8.6 second before FRB 200428, Insight-HXMT detected a very bright X-ray burst from SGR J1935+2154. This X-ray burst was also detected by the European satellite INTEGRAL, the Russian detector Konus-Wind and the Italian satellite AGILE.

The time difference is consistent with the time delay of the radio signal due to the interstellar medium. This indicates that the X-ray and radio emissions are from the same explosion.

Furthermore, Insight-HXMT was well able to localize this bright X-ray burst based on the unique design of its collimators, thus proving that both the X-ray burst and FRB 200428 originated from magnetar SGR J1935+2154. This represents not only the first confirmed source of an FRB, but also the first FRB originating in our Galaxy. It is a milestone in understanding the nature of FRBs and magnetars. The discovery of FRB 200428 and related research were recognized as one of the top 10 discoveries of 2020 by Nature and Science magazines.

In comparison with observational data from other high energy satellites, the observational data on FRB 200428 from Insight-HXMT are the most statistically rich and cover the broadest energy band, thus providing the most detailed temporal and spectral information on the X-ray burst.

Insight-HXMT is one of two satellites that independently localized this X-ray burst, showing much greater accuracy than two radio telescopes that detected FRB 200428. Insight-HXMT also detected, in the light curve of this X-ray burst, two X-ray spikes very closely aligned temporally with the FRB, a result later confirmed by other satellite data.

Finally, Insight-HXMT is the only instrument providing data for detailed analysis of the spectral evolution of this X-ray burst. Specifically, the X-ray spectrum of these two spikes is significantly different from spectra from other parts of the burst as well as from the majority of X-ray bursts from magnetars. These results are critical to understanding the physical mechanism of FRBs.

In summary, Insight-HXMT has discovered that this X-ray burst is from magnetar SGR J1935+2154, the two spikes of this X-ray burst are the high energy counterpart of FRB 200428, and the spectrum of this X-ray burst is special. These observations also show that Insight-HXMT is very powerful as a space observatory.

Insight-HXMT is China’s first X-ray observatory in space. It was first proposed by LI Tipei and WU Mei of IHEP in 1993. Insight-HXMT is funded by the China National Space Administration and CAS. IHEP is responsible for satellite payloads, the science data center and scientific research. The China Academy of Space Technology is the builder of the Insight-HXMT satellite platform. Tsinghua University, the National Space Science Center, Beijing Normal University and other institutes have also contributed to the Insight-HXMT mission. The calibration of the detectors on board Insight-HXMT was supported by the National Institute of Metrology, Ferrara University in Italy and the Max Planck Institute for Extraterrestrial Physics.

Since its launch on June 15, 2017, Insight-HXMT has successfully operated in orbit for more than 3.5 years. It has achieved a series of important scientific results on black holes, neutron stars and other phenomena.

As Insight-HXMT smoothly operates in orbit, the enhanced X-ray Timing and Polarimetry (eXTP) space mission, developed by IHEP and many other domestic and international partner institutions, has entered phase-B (design phase), after more than 10 years of preliminary study and key technology development. It will increase the capacity for studying neutron stars and black holes by an order of magnitude or more, compared with other similar satellites.

eXTP will bring China and the eXTP international consortium to the frontier of high energy space astronomy. The high energy counterparts of extragalactic FRBs are very weak due to their great distance. eXTP will be an ideal instrument for detecting them.
 
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【长五B火箭抵达发射场,#空间站真的要来了#!】2月22日,执行#中国空间站天和核心舱#发射任务的长征五号B遥二运载火箭安全运抵文昌航天发射场。之后,长征五号B遥二运载火箭将与先期已运抵的天和核心舱一起按计划开展发射场区总装和测试工作。目前,发射场设施设备状态良好,工程各大系统正在有序开展各项任务准备。#胖五加油#(来源:中国载人航天)​

China Aerospace Science and Technology Corporation
31 minutes ago from Weibo

[Long March 5BY2 rocket arrived at the launch site]

On February 22, the Long March 5BY2 carrier rocket, which will carried out the launch mission of the China Space Station Tianhe Core Module, arrived safely at the Wenchang Space Launch Site. Subsequently, the Long March 5BY2 launch vehicle will carry out launch site assembly and testing, together with the Tianhe core module that has been delivered in advance. Currently, the launch site facilities and equipment are all in good condition, and various engineering branch are preparing for various tasks in an orderly manner. (Source: China Manned Spaceflight)
 
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国家航天局副局长吴艳华:国家将研制长征九号运载火箭​

China Aerospace News
Today at 20:49

Wu Yanhua, Deputy Director of the National Space Administration: China will develop the Long March 9 carrier rocket


Hope fully they can speed up and first test this rocket in 2025. Then a Mars sample return mission by a single trip using this giant rocket for 2026.
 
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重大突破!我国首个3.35米直径火箭长筒段贮箱在八院800所问世,首次实现了国内近2米级筒段向5米级筒段的重大跨越,长筒段将现有多个筒段整合为一,以5米级长筒段为例,可消除2条环向焊缝、缩短焊缝长度21米,有效提高了火箭结构的可靠性。生产效率可提高30%以上,研制成本可降低20%以上。后续,该技术将应用于新一代运载火箭中。​

Dreaming in the Sky V
At 16:35 on February 26 from HUAWEI P30 Pro

A major breakthrough! China’s first 3.35-meter-diameter long-tube fuel tank section for rockets was launched in the 800 Institute of CASC Eighth Academy, marking the first major leap from a length of 2-meter tube section to a 5-meter tube section in China. Previously long tube section integrates multiple shorter tube sections. Taking the 5-meter long tube section as an example, it can eliminate 2 circumferential welds, shorten the weld length by 21 meters, and effectively improve the reliability of the rocket structure. The production efficiency can be increased by more than 30%, and the development cost can be reduced by more than 20%. This technology will be applied to new launch vehicles in the future,.

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19:01, 25-Feb-2021
ISO publishes int'l space standard formulated by China
CGTN

The International Organization for Standardization (ISO) has published an international space standard formulated by China that focuses on detailed space debris mitigation requirements and recommendations for the design and operation of launch vehicle orbital stages in Earth orbit.


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People's Daily, China @PDChina
China state-affiliated media

The launch of the 2nd SQX-1 commercial carrier rocket, developed by a Chinese private space company and scheduled on Monday, was unsuccessful. Abnormal performance was identified during the flight and the cause of the failure is under investigation.

Image
10:35 PM · Feb 1, 2021


3月1日 22:20 已编辑​
#双曲线一号#遥二运载火箭飞行故障完成归零】据星际荣耀空间科技股份有限公司微信公号消息,双曲线一号遥二(SQX-1 Y2)运载火箭完成归零。

据了解,SQX-1 Y2火箭飞行故障定位于理应脱落的一块保温泡沫在脱落后掉在了Ⅳ(四号)栅格舵上,在空气动压作用下引起Ⅳ栅格舵舵机堵转,泡沫在后续飞行过程中又从Ⅳ栅格舵被再次吹落,Ⅳ栅格舵恢复控制系统跟踪指令后,舵偏角在短时间内完成超过30度偏转,引起箭体姿态突变,进而导致飞行试验失败。

2021年2月1日,双曲线一号遥二(SQX-1 Y2)运载火箭在飞行过程出现异常,发射任务失败​

China Aerospace News
Edited March 1st 22:20

[The flight failure investigation of the Hyperbola No. 1 Y2 launch vehicle has concluded]

According to the WeChat public account of Interstellar Glory Space Technology Co., Ltd., the Hyperbolic One (SQX-1 Y2) launch vehicle flight status has completed zeroing.

It is understood that the flight failure of the SQX-1 Y2 rocket was identified as when a piece of thermal insulation foam that should have fallen off to ground fell on the IV (No. 4) grid fin, causing the IV grid fin to lock up under the action of aerodynamic pressure. The foam was blown away from the IV grid fin subsequently. After the IV grid fin was free, the control system resumes to track the flight command, that moved the rudder deflection angle of more than 30 degrees in a short time, causing a sudden change in the attitude of the rocket, which leads to flight failure.

On February 1, 2021, the SQX-1 Y2 launch vehicle of Hyperbola One (SQX-1 Y2) was abnormal during the flight, and the launch mission failed.
 
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国家航天局副局长吴艳华:国家将研制长征九号运载火箭​

China Aerospace News
Today at 20:49

Wu Yanhua, Deputy Director of the National Space Administration: China will develop the Long March 9 carrier rocket



It appear that Long March-9 is close to but not yet approved.
 
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China to launch new satellite for CO2 monitoring
Source: Xinhua| 2021-03-02 19:03:50|Editor: huaxia

BEIJING, March 2 (Xinhua) -- China is planning to launch a new satellite mounted with a LiDAR (light detection and ranging) system to monitor CO2 in the atmosphere, a senior meteorologist said.

The world's first satellite actively sensing CO2 with the LiDAR technology, the new satellite will be ready for launch in July, said Zhang Xingying, a senior researcher with the National Satellite Meteorological Center, in an interview with Xinhua.

China has put three satellites in orbit for CO2 monitoring and study since 2016, and they are all equipped with passive optical remote-sensing technology, according to Zhang.

"The application of the satellites will not only benefit China but also the entire world as it is providing technological support for the protection of our home planet," Zhang said.

A constellation of meteorological satellites for CO2 monitoring is expected to be built during China's 14th Five-Year Plan period (2021-2025) amid the country's efforts to peak CO2 emissions before 2030 and go carbon neutral before 2060.
 
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3月2日 17:12 来自 微博视频 已编辑​
【大推力氢氧发动机完成520秒长程试车】2月28日,我国大推力氢氧发动机在北京云岗完成了一次520秒的长程试车,这是该台发动机成功进行的第5次长程试车,同一台发动机累计试车时长达到了2520秒,大幅提高了大推力氢氧发动机的可靠性。​
“本次试车也是为即将发射的长征五号B遥二运载火箭保驾护航。”航天六院北京11所主推进发动机设计部主任许晓勇说。为了适应空间站发射任务,大推力氢氧发动机以提高任务可靠性为目标做过一些优化改进,此轮试车正是为了进一步验证优化后的发动机性能,以确保空间站核心舱发射任务万无一失。​
后续该台发动机还将进行3次500秒的长程试车,届时累计试车时长将达4000秒左右,进一步验证大推力氢氧发动机的可靠性。(文摄 赵聪) L中国航天报的微博视频


China Aerospace News
March 2 at 17:12 from Weibo video

[High-thrust hydrogen-oxygen engine completes 520 second long duration test run]

On February 28, China's high-thrust hydrogen-oxygen engine completed a 520-second long-duration test run in Yungang, Beijing. This is the fifth successful long-duration test run of the engine. The cumulative test run time of the same engine reached 2520 seconds, which greatly improves the reliability of the high-thrust hydrogen-oxygen engine.

"This test run is also to support the upcoming launch of Long March 5B-Y2 carrier rocket." said Xu Xiaoyong, director of the main propulsion engine design department of the 11th Institute of CASC's sixth academy. In order to adapt to the space station launch mission, the high-thrust hydrogen-oxygen engine has made some optimization improvements to improve mission reliability. This round of test runs is to further verify the optimized engine performance to ensure the success of the launch mission of the core module of the space station.

In the future, the engine will undergo three more 500-second long-duration test runs, and the cumulative test run time will reach about 4000 seconds by then, further verifying the reliability of the high-thrust hydrogen-oxygen engine. (Photo by Wen Zhao Cong) L China Aerospace News’s Weibo video

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China's commercial rocket SD-3 to make maiden flight in 2022
Source: Xinhua| 2021-03-03 14:43:25|Editor: huaxia

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An illustration of Smart Dragon-3. (Photo provided to Xinhua)

BEIJING, March 3 (Xinhua) -- Smart Dragon-3 (SD-3), the third member of China's Dragon series commercial carrier rockets family, will make its maiden flight in 2022, its developer said Wednesday.

A four-stage solid-propellant rocket, the SD-3 will be the largest and have the highest carrying capacity among the Dragon series, according to the China Academy of Launch Vehicle Technology.

With a maximum diameter of 2.64 meters and a takeoff weight of 140 tonnes, the rocket is capable of sending a payload of 1.5 tonnes to the solar synchronous orbit at an altitude of 500 km.

To meet the large-scale commercial launch demands, the rocket's multi-satellite launch capability enables it to carry more than 20 satellites in a single mission, while the cost is just 10,000 U.S. dollars per kg, making it competitive in the market.

The rocket maker said the SD-3 was designed for both land and sea launches.

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China's new carrier rocket Smart Dragon-1 blasts off from the Jiuquan Satellite Launch Center in northwest China, Aug. 17, 2019. (Photo by Wang Jiangbo/Xinhua)

China's Dragon series rockets were launched in 2019 for commercial space launch market. The first-generation rocket SD-1 made its maiden flight in August 2019, and it is scheduled to conduct two to three launches this year.
 
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LM9 rocket will enable China to build moon base. It will have a rocket launch pad which reduces Mars mission to less than a month because of low gravity on moon and no atmospheric resistance which means very fast rocket speed at launch.
 
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