Saturday, June 15, 2024

First-Stage Rocket Engines for China’s Crewed Moon Missions Complete Trial Run

First-Stage Rocket Engines for China’s Crewed Moon Missions Complete Trial Run

China on Friday, June 14, 2024, successfully completed a trial run for the first-stage propulsion system of the Long March-10 carrier rocket, marking a key step toward realizing its crewed Moon landing goal by 2030.

Conducted at Institute 101 of the Sixth Academy of China Aerospace Science and Technology Corporation (CASC) in Beijing, it was the first large-scale system-level ground test of the Long March-10 series that will be used for the country’s future crewed lunar missions that will full verify many key technologies.

The test run of the propulsion system is equivalent to a launch without takeoff. Three engines of the system started normally, worked stably and shut down on time, and all tested parameters showed no abnormalities.

"The test is basically a comprehensive verification of our first-stage module. It was a complete success, laying a solid foundation for our subsequent research and development and the realization of our entire manned lunar exploration program," said Xu Hongping, an engineer with CASC.

The Long March-10 is a three-and-a-half-stage rocket developed for the purpose of sending crewed spacecraft and Moon landers into the Earth-Moon transfer orbit. It has a total length of about 92 meters, a takeoff weight of over 2,180 tonnes, a takeoff thrust of about 2,678 tonnes, and a carrying capacity of no less than 27 tonnes for the Earth-Moon transfer orbit. A non-booster configuration of the new rocket is capable of conducting missions for transporting astronauts and cargo to the space station.

"The development of new-generation crewed rockets can greatly enhance our country's ability to enter space and help the Chinese land on the Moon. In addition, its technological breakthroughs can drive the development of our entire aerospace industry and will be a considerable boost to the country's advanced manufacturing sector," said Xu.

According to CASC's development plan, the second trial run for the Long March-10 rocket's first-stage propulsion system will be carried out in the near future to further verify other working conditions.


Video Credit: CCTV

Duration: 1 minute, 43 seconds

Release Date: June 14, 2024


#NASA #Space #Earth #China #中国 #Beijing #北京 #LongMarch10Rocket #RocketEngine #EngineTesting #CASC #Moon #月亮 #嫦娥 #Taikonauts #Astronauts #HumanSpaceflight #CNSA #CMSA #国家航天局 #Science #SpaceTechnology #SpaceEngineering #STEM #Education #HD #Video

Friday, June 14, 2024

Melting Sea Ice Swirls off Greenland's East Coast | NASA Terra Earth Satellite

Melting Sea Ice Swirls off Greenland's East Coast | NASA Terra Earth Satellite

A satellite view of sea ice. The ice is white and solid at top left, while the edges swirl and swoop through the dark blue water.
Annotated/labeled version

Floating fragments of sea ice spun into intricate patterns as ocean currents carried them south along Greenland’s east coast in spring 2024. The Moderate Resolution Imaging Spectroradiometer (MODIS) on NASA’s Terra satellite captured a moment of this dizzying journey on June 4, 2024.

Much of the ice has likely drifted a great distance to get to this point. The Fram Strait, a 450-kilometer (280-mile)-wide passage between Greenland and Svalbard (to the north, out of view), connects the Arctic Ocean with the Greenland Sea. It serves as the primary route for sea ice out of the Arctic. After moving through the Fram Strait, ice is swept south along the Greenland coast by the East Greenland Current.

Along the way, it breaks into smaller pieces and starts to melt in warmer ocean waters. “The smaller the floes, the more ‘wispy’ the patterns,” said Walt Meier, a sea ice scientist at the National Snow and Ice Data Center (NSIDC). The small ice fragments in those swirling patterns may only be meters or tens of meters across, he said—too small to distinguish in MODIS imagery. The aggregation of small pieces imparts the look of hazy, smoke-like curls to the surface of the water.

The predominant southward current along the coast gets perturbed by the jagged coastline, other offshore currents, and occasionally winds coming off the Greenland Ice Sheet, said Meier, forming eddies that are made visible by the ice chunks. “With the thinning and breaking up of the ice, it becomes more easily pushed around by the winds and current,” he said.

Larger floes appear closer to the shoreline. This ice is likely more local in origin, breaking off from the fast ice and becoming entrained in the swirling waters. Fast ice, anchored to the shore or shallow ocean bottom, is visible at the top of the image and along other sections of the coast.

As the summer wears on, ice will continue to drift out of the Arctic. However, in recent years, more of the Arctic Ocean’s sea ice has become too young and thin to make the journey south, noted Angela Bliss, a sea ice scientist at NASA’s Goddard Space Flight Center. “Historically, when more of the Arctic sea ice would survive the summer melt season, growing thicker and older, a larger volume of sea ice would be transported through the Fram Strait,” she said.

Climate scientists are watching this diminished flow closely. The movement of sea ice and freshwater out of the Arctic is a component of ocean circulation patterns that distribute heat around the planet. The so-called “global ocean conveyor belt” transports cold water south and warm water north, contributing to climate conditions worldwide. “Less ice and freshwater transport have big implications for ocean productivity, as well as warming upper ocean temperatures, in the region,” said Bliss.

A 2023 study looking at two decades of ocean-mooring observations found that the East Greenland Current is moving less sea ice through the Fram Strait, primarily due to sea ice thinning. The researchers observed that summertime surface water temperatures off Greenland have risen, in part due to the increased presence of heat-absorbing open water. The water column has also become less stratified, making more nutrients available to phytoplankton communities.


Image Credit: NASA/Wanmei Liang, using MODIS data from NASA EOSDIS LANCE and GIBS/Worldview

Story Credit: Lindsey Doermann

Image Date: June 4, 2024

Release Date: June 13, 2024


#NASA #Space #Satellites #TerraSatellite #Science #Planet #Earth #Greenland #Denmark #SeaIce #MeltingIce #Environment #ClimateChange #GlobalWarming #GlobalHeating #Atmosphere #EarthObservation #RemoteSensing #GSFC #UnitedStates #STEM #Education

The Devil's Tower Nebula: RCW 85 in Centaurus

The Devil's Tower Nebula: RCW 85 in Centaurus

From the 1960 astronomical catalog of Rodgers, Campbell and Whiteoak (RCW), emission region RCW 85 shines in Earth's southern night skies between the bright stars Alpha and Beta Centauri. About 5,000 light years distant, the hazy interstellar cloud of glowing hydrogen gas and dust is faint. However, detailed structures along well-defined rims within RCW 85 are traced in this cosmic skyscape composed of 28 hours of narrow and broadband exposures. Suggestive of dramatic shapes in other stellar nurseries where natal clouds of gas and dust are sculpted by energetic winds and radiation from newborn stars, the tantalizing nebula has been called the Devil's Tower. This telescopic frame would span around 100 light-years at the estimated distance of RCW 85. The bright star in the upper-left is HD125158.


Image Credit & Copyright: Martin Pugh

Martn's website: https://www.martinpughastrophotography.space/about

Release Date: June 14, 2024


#NASA #Astronomy #Space #Science #Nebulae #Nebula #RCW85 #DevilsTowerNebula #Stars #AlphaCentauri #BetaCentauri #StarHD125158 #Constellation #Centaurus #MilkyWayGalaxy #Cosmos #Universe #CitizenScience #Astrophotography #Astrophotographer #MartinPugh #STEM #Education #APoD

China Solar Explorer Satellite Capable of Rapid Multi-Spectral High-res Scans

China Solar Explorer Satellite Capable of Rapid Multi-Spectral High-res Scans

The China H-alpha Solar Explorer (CHASE) satellite is capable of conducting rapid solar H-alpha high-resolution spectral imaging in just dozens of seconds each time. It is much like recording precise computed tomography (CT) scans of the Sun to advance humanity's understanding of the rotation of the solar atmosphere. 

Discoveries in solar atmospheric rotation patterns by the CHASE satellite were published in the international science journal Nature Astronomy on Thursday, June 13, 2024:

https://www.nature.com/articles/s41550-024-02299-4

Scientists were able to make the discoveries through accurate 3D imagery of solar atmospheric rotation put together by CHASE's multi-spectral, full disk, high precision scans. The satellite, placed into a sun-synchronous orbit, is able to acquire more comprehensive and accurate solar data by being outside the Earth's atmosphere. It also marked the world's first practical use of solar H-alpha spectral imaging in space.

"It only takes 46 seconds for CHASE to scan the whole solar disk. We are able to get more than 300 images of the whole solar disk at different layers, which is equivalent to a CT scan of the solar atmosphere," said Li Chuan, chief designer of CHASE's application system.

CHASE's full-disk spectral observation data also allows scientists to further study the transportation of matter and energy in the solar atmosphere, as well as solar flares. This is important since we are now experiencing Solar Cycle 25, and the Sun’s activity will ramp up until solar maximum, predicted for 2025. This high solar activity is warming Earth's upper atmosphere. China also uses its Advanced Space-based Solar Observatory (ASO-S), launched in 2022, to continuously monitor solar activity.

CHASE was launched aboard a Long March 2D rocket in October 2021. CHASE is a 508 kg (1,120 lb) satellite operating at a 517-kilometer-altitude Sun-synchronous orbit with an orbital period of about 94 minutes.

Video Credit: CCTV Video News Agency

Duration: 1 minute, 19 seconds

Release Date: June 14, 2024

#NASA #Space #Astronomy #Science #Sun #Star #Earth #China #中国 #Satellite #CHASE #Xihe #羲和 #SolarObservatory #Satellite #Telescope #SpaceWeather #SolarFlares #CoronalMassEjections #MagneticField #Heliophysics #STEM #Education #HD #Video

Gateway Lunar Space Station: Architectural Plans | NASA Artemis Program

Gateway Lunar Space Station: Architectural Plans | NASA Artemis Program

Gateway Artemis Mission Elements: An expanded view of the Gateway lunar space station showing its planned elements, international partner contributions, and visiting spacecraft.
Gateway Lunar Space Station Configuration: This infographic illustrates each element of the Gateway plan, a space station in lunar orbit.
Gateway Elements & Major Partners: Illustrative diagram of NASA’s plans for a Gateway lunar space station, showing modules contributed by international and industry partners.

The Gateway lunar space station is central to NASA-led Artemis missions to return to the Moon for "scientific discovery and to chart a path for human missions to Mars and beyond." This small space station will be a multi-purpose outpost supporting lunar surface missions, science in lunar orbit, and human exploration further into the cosmos. NASA is working with commercial and international partners to build Gateway.

Learn more about NASA's plans for the Gateway lunar space station:

Learn more about NASA's Artemis Program: https://www.nasa.gov/specials/artemis


Credit: National Aeronautics and Space Administration (NASA)

Release Date: June 13, 2024


#NASA #ESA #Space #Moon #ArtemisProgram #LunarGateway #Gateway #GatewayArchitecture #LunarSpaceStation #MoonToMars #Science #Engineering #SpaceTechnology #UnitedStates #InternationalCooperation #HumanSpaceflight #Art #Illustration #Infographics #STEM #Education

NASA's Space to Ground: Starliner Crew Flight Test | Week of June 14, 2024

NASA's Space to Ground: Starliner Crew Flight Test | Week of June 14, 2024

NASA's Space to Ground is your weekly update on what's happening aboard the International Space Station. Nine astronauts and cosmonauts are living aboard the International Space Station following the arrival of two crewmates, veteran NASA astronauts Butch Wilmore and Suni Williams, aboard Boeing’s Starliner spacecraft on Thursday, June 6, 2024. 

Expedition 71 Crew
Station Commander: Oleg Kononenko (Russia)
Roscosmos (Russia): Nikolai Chub, Alexander Grebenkin (Russia)
NASA: Tracy Dyson, Matthew Dominick, Mike Barrett, Jeanette Epps

An international partnership of space agencies provides and operates the elements of the International Space Station (ISS). The principals are the space agencies of the United States, Russia, Europe, Japan, and Canada. The ISS has been the most politically complex space exploration program ever undertaken.

Learn more about the important research being operated on Station:

https://www.nasa.gov/iss-science 

For more information about STEM on Station:

https://www.nasa.gov/stemonstation

Science, Technology, Engineering, Math (STEM)


Video Credit: NASA's Johnson Space Center (JSC)

Duration: 2 minutes, 38 seconds

Release Date: June 14, 2024


#NASA #Space #Earth #ISS #BoeingStarliner #Astronauts #SuniWilliams #BarryWilmore #Science #SpaceTechnology #SpaceLaboratory #Engineering #UnitedStates #Cosmonauts #Russia #Россия #Roscosmos #Роскосмос #HumanSpaceflight #InternationalCooperation #Expedition71 #STEM #Education #HD #Video

Thursday, June 13, 2024

Moonwalk Training: Astronauts Andre Douglas & Kate Rubins | NASA Artemis

Moonwalk Training: Astronauts Andre Douglas & Kate Rubins | NASA Artemis

NASA astronaut Andre Douglas wears Augmented Reality (AR) display technology during a nighttime advanced technology run in the San Francisco Volcanic Field in Northern Arizona on May 21, 2024. The monocular lens consists of a pico-projector and waveguide optical element to focus an image for crew to see their real world overlaid with digital information. These unique near-eye form factors may be used to improve the usability and minimally impact the complex biomechanics of working in a pressurized suit environment.
NASA astronaut Andre Douglas wears the Joint Augmented Reality Visual Informatics System (Joint AR) display during a nighttime advanced technology run in the San Francisco Volcanic Field in Northern Arizona on May 21, 2024. The suit display features include navigation, photo capture, graphical format of consumables, procedure viewing, mission control updates, and other augmented reality cues and graphics. 
NASA astronaut Andre Douglas wears Augmented Reality (AR) display technology during a nighttime advanced technology run in the San Francisco Volcanic Field in Northern Arizona on May 21, 2024. The monocular lens consists of a pico-projector and waveguide optical element to focus an image for crew to see their real world overlaid with digital information. These unique near-eye form factors may be used to improve the usability and minimally impact the complex biomechanics of working in a pressurized suit environment.
NASA astronaut Andre Douglas wears Augmented Reality (AR () display technology during an advanced technology run in the San Francisco Volcanic Field in Northern Arizona on May 21, 2024. The monocular lens consists of a pico-projector and waveguide optical element to focus an image for crew to see their real world overlaid with digital information. These unique near-eye form factors may be used to improve the usability and minimally impact the complex biomechanics of working in a pressurized suit environment.
NASA astronaut Kate Rubins uses the hand controller on her wrist to display information while wearing the Joint Augmented Reality Visual Informatics System (Joint AR) display during an advanced technology run in the San Francisco Volcanic Field in Northern Arizona on May 21, 2024. The suit display features include navigation, photo capture, graphical format of consumables, procedure viewing, mission control updates, and other augmented reality cues and graphics.
An engineer helps NASA astronaut Kate Rubins adjust the lens on the Joint Augmented Reality Visual Informatics System (Joint AR) display she’s wearing during an advanced technology run in the San Francisco Volcanic Field in Northern Arizona on May 19, 2024. The suit display features include navigation, photo capture, graphical format of consumables, procedure viewing, mission control updates, and other augmented reality cues and graphics. 
NASA astronaut Kate Rubins opens the sun visor on the Joint Augmented Reality Visual Informatics System (Joint AR) display she is wearing during an advanced technology run in the San Francisco Volcanic Field in Northern Arizona on May 19, 2024. The suit display features include navigation, photo capture, graphical format of consumables, procedure viewing, mission control updates, and other augmented reality cues and graphics. 
NASA astronaut Kate Rubins uses the hand controller on her wrist to display information while wearing the Joint Augmented Reality Visual Informatics System (Joint AR) display during an advanced technology run in the San Francisco Volcanic Field in Northern Arizona on May 19, 2024. The suit display features include navigation, photo capture, graphical format of consumables, procedure viewing, mission control updates, and other augmented reality cues and graphics. 


To prepare for exploring the Moon during NASA’s Artemis campaign, the agency is conducting a week-long field test in the lunar-like landscape of San Francisco Volcanic Field near Flagstaff, Arizona, to practice moonwalk scenarios.

NASA astronauts Kate Rubins and Andre Douglas are serving as the crewmembers and wearing mockup spacesuit systems as they traverse through the desert, completing a variety of technology demonstrations, hardware checkouts and Artemis science-related operations. 

During the test, two integrated teams will work together as they practice end-to-end lunar operations. The field team consists of astronauts, NASA engineers, and field experts in the Arizona desert conducting the simulated moonwalks, while a team of flight controllers and scientists at NASA’s Johnson Space Center in Houston monitor and guide their activities.

On May 19, 2024, the team successfully tested navigation displays using data from four different data streams: Global Positioning System (GPS)/Inertial Measurement Unit (IMU), camera/IMU, Light Detection and Ranging (LiDAR), and static maps. Technology like this may be used for future Artemis missions to augment mission control communication and help guide crew back to the lunar lander.

“Field tests play a critical role in helping us test all of the systems, hardware, and technology we’ll need to conduct successful lunar operations during Artemis missions,” said Barbara Janoiko, director for the field test at Johnson. “Our engineering and science teams have worked together seamlessly to ensure we are prepared every step of the way for when astronauts step foot on the Moon again.”   

The test consists of four simulated moonwalks that follow operations planned for Artemis III and beyond, as well as six advanced technology runs. During the advanced runs, teams will demonstrate technology that may be used for future Artemis missions, such as display and navigation data stream capabilities in the form of a heads-up display using augmented reality or lighting beacons that could help guide crew back to the lander. 

Ahead of the field test, the science team at Johnson that was competitively selected and tasked with developing the science objectives for the field test, followed a planning process designed for Artemis missions. Their preparation included generating geologic maps, a list of science questions, and prioritized moonwalk locations for both the primary and back-up “landing sites” for the test. 

“During Artemis III, the astronauts will be our science operators on the lunar surface with an entire science team supporting them from here on Earth,” said Cherie Achilles, science officer for the test at NASA’s Goddard Space Flight Center in Greenbelt, Maryland. “This simulation gives us an opportunity to practice conducting geology from afar in real time.” 

The test will evaluate gaps and challenges associated with lunar South Pole operations, including data collection and communications between the flight control team and science team in Houston for rapid decision-making protocols. 

At the conclusion of each simulated moonwalk, the science team, flight control team, crewmembers, and field experts will come together to discuss and record lessons learned. NASA will take these lessons and apply them to operations for NASA’s Artemis missions, commercial vendor development, and other technology development. 

This field test is the fifth in the series conducted by the Joint Extravehicular Activity and Human Surface Mobility Test Team led out of Johnson. This test expands on previous field tests the team has performed and is the highest fidelity Artemis moonwalk mission simulation to date. 

NASA uses field tests to simulate missions to prepare for deep space destinations. The Arizona desert has been a training ground for lunar exploration since the Apollo era because of the many similarities to the lunar terrain, including craters, faults and volcanic features. 

Through Artemis, NASA will land the first woman, the first person of color, and its first international partner astronaut on the Moon, paving the way for long-term lunar exploration and serving as a steppingstone for astronaut missions to Mars. 

Learn more about NASA’s Extravehicular Activity and Human Surface Mobility Program:

https://www.nasa.gov/extravehicular-activity-and-human-surface-mobility/


Image Credit: NASA's Johnson Space Center (JSC)/Josh Valcarcel

Image Date: May 19-21, 2024


#NASA #Space #Moon #ArtemisProgram #ArtemisIII #Astronauts #HumanSpaceflight #JETT #JETT5 #Moonwalks #MoonwalkSimulation #Training #MoonToMars #Science #Engineering #SpaceTechnology #SpaceExploration #SolarSystem #GSFC #JSC #Arizona #UnitedStates #STEM #Education

Noctilucent Clouds over Poland | Earth Science

Noctilucent Clouds over Poland | Earth Science




Noctilucent clouds (NLCs) are spilling out of the Arctic to lower latitudes. Astrophotographer Marek Nikodem spotted the electric-blue clouds at midnight, June 11-12, 2024, over Szubin, Poland (+53N). 

Nikodem: "These are our first noctilucent clouds of the season here in Poland. It was a very nice display."

NASA scientists study and model the Sun to better understand what it does and why. The Sun has its ups and downs and cycles between them regularly. Roughly every 11 years, at the height of its cycle, the Sun’s magnetic poles flip—on Earth, that would be like if the North and South Poles swapped places every decade—and the Sun transitions from sluggish to active and stormy. At its quietest, the Sun is at solar minimum; during solar maximum, the Sun blazes with bright flares and solar eruptions.

December 2019 marked the beginning of Solar Cycle 25, and the Sun’s activity will once again ramp up until solar maximum, predicted for 2025. This high solar activity is warming Earth's upper atmosphere and breaking apart water molecules required to form noctilucent ices. However, for reasons researchers do not fully understand, Solar Max does not always extinquish the clouds. The appearance of NLCs over Poland suggests that 2024 may be a year when night-shining clouds defy the Sun.


Image Credit & Copyright: Marek Nikodem

Marek's Instagram Page: https://www.instagram.com/marek.nikodem.niki/

Caption Credits: SpaceWeather/NASA

Image Dates: June 11-12, 2024


#NASA #Space #Science #Sun #SolarMax #SolarCycle25 #Earth #Planet #Atmosphere #Clouds #Noctilucent #NoctilucentClouds #Photography #Photographer #MarekNikodem #Szubin #Poland #Polska #STEM #Education

Expedition 71 Picture Gallery: June 2024 | International Space Station

Expedition 71 Picture Gallery: June 2024 | International Space Station

NASA astronauts (from left) Suni Williams, Tracy C. Dyson, and Jeanette Epps pose for a portrait during dinner time aboard the International Space Station's Unity module. Williams is the pilot for NASA's Boeing Crew Flight Test and Dyson and Epps are both Expedition 71 Flight Engineers.
The seven-member Expedition 71 crew poses together for a portrait aboard the International Space Station's Kibo laboratory module. In the front row (from left) are, NASA astronaut Tracy C. Dyson and Roscosmos cosmonauts Oleg Kononenko and Nikolai Chub of Russia. The trio will return to Earth aboard the Soyuz MS-25 spacecraft in September. In the back are, Roscosmos cosmonaut Alexander Grebenkin of Russia and NASA astronauts Mike Barratt, Matthew Dominick, and Jeanette Epps. The foursome launched to Earth aboard the SpaceX Dragon Endeavour spacecraft on March 3, 2024.
NASA astronaut and Boeing Crew Flight Test Pilot Suni Williams is pictured in front of the Harmony module's vestibule that leads to the forward port where Boeing's Starliner spacecraft is docked to the International Space Station.
NASA astronaut and Expedition 71 Flight Engineer Tracy C. Dyson works inside the International Space Station's Quest airlock and checks procedures on a computer tablet to prepare a spacesuit for a fit verification.
Expedition 71 Flight Engineers Jeanette Epps and Mike Barratt, both NASA astronauts, practice installing safety components on a spacesuit inside the International Space Station's Unity module.
Expedition 71 Flight Engineer Tracy C. Dyson (center) assists Expedition 71 Flight Engineers Matthew Dominick (left) and Mike Barratt (right), all three NASA astronauts, during a spacesuit fit check inside the International Space Station's Quest airlock.
Expedition 71 Flight Engineer Tracy C. Dyson assists Expedition 71 Flight Engineer Mike Barratt, both NASA astronauts, during a spacesuit fit check inside the International Space Station's Quest airlock.
NASA astronaut and Expedition 71 Flight Engineer Tracy C. Dyson works inside the International Space Station's Quest airlock performing maintenance on a spacesuit's liquid cooling ventilation garment.

Boeing's Starliner spacecraft carrying Crew Flight Test (CFT) members and NASA astronauts Butch Wilmore and Suni Williams docked with the station on June 6, 2024.

Follow Expedition 71 Updates: 


Expedition 71 Crew
Station Commander: Oleg Kononenko (Russia)
Roscosmos (Russia): Nikolai Chub, Alexander Grebenkin (Russia)
NASA: Tracy Dyson, Matthew Dominick, Mike Barrett, Jeanette Epps

An international partnership of space agencies provides and operates the elements of the International Space Station (ISS). The principals are the space agencies of the United States, Russia, Europe, Japan, and Canada. The ISS has been the most politically complex space exploration program ever undertaken.

Image Credit: NASA's Johnson Space Center (JSC)

Image Dates: June 3-12, 2024


#NASA #Space #Earth #ISS #Science #Astronauts #BoeingStarliner #CFTCrew #HumanSpaceflight #SpaceTechnology #SpaceLaboratory #Engineering #UnitedStates #Cosmonauts #Russia #Россия #Roscosmos #Роскосмос #InternationalCooperation #Expedition71 #STEM #Education

Chinese Scientists Ready to Study Far Side Lunar Samples from Chang'e-6 Probe

Chinese Scientists Ready to Study Far Side Lunar Samples from Chang'e-6 Probe

Chinese scientists are fully prepared to study the lunar samples being brought back to Earth by the Chang'e-6 mission at the country's lunar sample lab at the National Astronomical Observatories (NAO), a Beijing-based agency under the Chinese Academy of Sciences (CAS).

The ascender of the Chang'e-6 probe lifted off from lunar surface on Tuesday June 4, 2024, carrying samples collected from the Moon's far side south polar region for the first time in human history. It has entered a preset orbit around the Moon in preparation for Moon-to-Earth transfer, according to the China National Space Administration (CNSA).

The probe's returner, carrying the samples, is expected to make its planned touchdown in the Siziwang Banner in north China's Inner Mongolia Autonomous Region around June 25, 2024.

The lunar sample lab allows for the long-term storage of the samples in a high purity nitrogen environment and ensures there is no contamination during the research process.

For example, there is a cabinet, or glove box, filled with nitrogen used for sample unsealing at the lab, where lunar samples collected by the previous Chang'e-5 probe in 2020 were unsealed.

"The glove box is filled with nitrogen with pressure inside which is designed to be a little bit higher than the pressure outside the box, so as to prevent air from getting inside to pollute the samples," said Zhou Qin, deputy chief designer of ground application system of Chang'e-6 mission.

Lunar samples to be brought back by the Chang'e-6 mission will also be unsealed at the cabinet and distributed to scientists for research.

According to the lab, lunar samples brought back by the Chang'e-5 mission were categorized and stored based on the standard of "whether they had been exposed to the air."

"The samples, once exposed to the air, can be further divided into two categories. One are the rock samples that we picked out from the lunar soil which are numbered and stored separately. We have already weighed the weight and taken pictures of the rocks by exposing them to the air. The other are the returned samples that we once released to the public. According to the requirements of China's Lunar Exploration and Space Engineering Center, the samples lent out, as long as there is a surplus, must be returned to us. The returned samples can be re-applied and reused by scientists for further research," said Zhou.

The lunar samples which have not been exposed to the air are kept in a nitrogen-filled, sealed glove box.

"The 10 bottles here are used to store original samples collected with a sampling shovel. They are very fine with an average particle size of about 50 microns, which is similar to the thickness of the flour particle size. We divided about 150 grams of samples into each bottle. As we distributed the samples to institutions for research, some bottles are one third or half filled. There are also some borehole samples stored here on the shelve, which have never been exposed to the air," said Zhou.

"At present, the lunar samples we keep at the lab are available for distribution. According to the initial plan, 10 percent of the samples have been kept for remote and permanent backup storage, which means we have made preparations for reserving and sub-sampling," she said.

The CNSA has completed the distribution of six batches of Chang'e-5 lunar samples to domestic research institutions. International scientists and institutions are permitted to apply for the samples in the seventh batch.


Video Credit: CCTV

Duration: 2 minutes

Release Date: June 4, 2024


#NASA #CNSA #ESA #Space #Astronomy #Science #China #中国 #Moon #Change6 #嫦娥六号 #Geology #LunarSampleReturn #LunarSamples #FarSide #SouthPole #SpaceTechnology #SpaceExploration #SolarSystem #InternationalCooperation #STEM #Education #History #HD #Video

Spiral Galaxy NGC 5775: A Galactic Fountain of Youth in Virgo | Hubble

Spiral Galaxy NGC 5775: A Galactic Fountain of Youth in Virgo | Hubble


This NASA/European Space Agency Hubble Space Telescope image shows the edge-on profile of the slender spiral galaxy NGC 5775. Although the spiral is tilted away from us, with only a thin slither on view, such a perspective can be advantageous for astronomers because the regions above and below the galaxy’s disc can be seen much more clearly.

Distance: 85 million light years

For instance, astronomers have previously used the high inclination of this spiral to study the properties of the halo of hot gas that is visible when the galaxy is observed at X-ray wavelengths. The mechanism behind such haloes is unclear, but they are found around spirals that have a high star formation rate, like NGC 5775. A number of astronomers think that hot gas from the disc is driven into the halo by supernova explosions. This  is then returned to the disc as it cools—like a massive galactic fountain.

Meanwhile, there is further disruption taking place in the disc of NGC 5775, as it is in the early stages of a galactic merger. Astronomers have observed bridges of hydrogen gas connecting this edge-on galaxy with a neighboring face-on spiral (NGC 5774). However, neither galaxy yet features a tidal tail—a disrupted stream of gas and stars that extends into space. These are commonplace in strongly interacting pairs, such as the Antennae Galaxies.

NGC 5775 and 5774 are members of the Virgo Cluster and lie at a distance of about 85 million light-years. This color picture was created from images taken using the Wide Field Channel of Hubble’s Advanced Camera for Surveys. Images through a red filter (F625W) were colored blue and images through a filter that isolates the glow from hydrogen gas (F658N) have been colored red. The exposure times were 2292 s and 6848 s, respectively, and the field of view is 3.2 arcminutes across.


Credit: ESA/Hubble & NASA

Release Date: May 9, 2011


#NASA #ESA #Astronomy #Space #Hubble #Galaxies #Galaxy #NGC5775 #SpiralGalaxy #Virgo #Constellation #Cosmos #Universe #SpaceTelescope #GSFC #STScI #UnitedStates #Europe #STEM #Education

Wednesday, June 12, 2024

The Lion Nebula: Sh2-132 in Cepheus

The Lion Nebula: Sh2-132 in Cepheus

Is the Lion Nebula the real ruler of the constellation Cepheus? This powerful feline appearing nebula is powered by two massive stars, each with a mass over 20 times greater than our Sun. Formed from shells of ionized gas that have expanded, the nebula's energetic matter not only glows, but is dense enough to contract gravitationally and form stars. The angular size of the Lion Nebula, officially named Sh2-132, is slightly greater than that of the full moon. The gaseous iconic region resides about 10,000 light years away in a constellation named after the King of Aethopia in Greek mythology.


Image Credit & Copyright: Imran Badr
Caption Text: Natalia Lewandowska (SUNY Oswego)
Release Date: June 10, 2024

#NASA #Astronomy #Space #Science #Nebulae #Nebula #LionNebula #Sh2132 #Cepheus #Constellation #MilkyWayGalaxy #Cosmos #Universe #CitizenScience #Astrophotographer #ImranBadr #SanJose #California #UnitedStates #STEM #Education #APoD

Orbital Sunset | International Space Station

Orbital Sunset | International Space Station

The International Space Station soars into an orbital sunset 258 miles above the Maldives in the Indian Ocean. In the left foreground, is the Russian Soyuz MS-25 crew ship docked to the Prichal docking module.

Follow Expedition 71 Updates: 


Expedition 71 Crew
Station Commander: Oleg Kononenko (Russia)
Roscosmos (Russia): Nikolai Chub, Alexander Grebenkin (Russia)
NASA: Tracy Dyson, Matthew Dominick, Mike Barrett, Jeanette Epps

An international partnership of space agencies provides and operates the elements of the International Space Station (ISS). The principals are the space agencies of the United States, Russia, Europe, Japan, and Canada. The ISS has been the most politically complex space exploration program ever undertaken.

Image Credit: NASA's Johnson Space Center (JSC)

Image Date: June 6, 2024


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NASA's "Espacio a Tierra" | Llega Calypso:7 de junio de 2024

NASA's "Espacio a Tierra" | Llega Calypso:7 de junio de 2024


Espacio a Tierra, la versión en español de las cápsulas Space to Ground de la NASA, te informa semanalmente de lo que está sucediendo en la Estación Espacial Internacional.

Ciencia de la NASA: https://ciencia.nasa.gov

Para obtener más información sobre la ciencia de la NASA, suscríbete al boletín semanal: https://www.nasa.gov/suscribete


Video Credit: NASA's Johnson Space Center (JSC)

Duration: 4 minutes

Release Date: June 12, 2024


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Investigating the Habitability of Exoplanets | NASA's Chandra X-ray Observatory

Investigating the Habitability of Exoplanets | NASA's Chandra X-ray Observatory

Using NASA’s Chandra X-ray Observatory and ESA’s XMM-Newton, astronomers are testing how habitable exoplanets are based on whether they receive lethal radiation from the stars they orbit. This type of research will help guide observations with the next generation of telescopes aiming to make the first images of planets like Earth.

A team of researchers examined stars that are close enough to Earth that telescopes set to begin operating in the next decade or two could take images of planets in their so-called habitable zones, defined as orbits where the planets could have liquid water on their surfaces.

Any images of planets will be single points of light and will not directly show surface features like clouds, continents and oceans. However, their spectra—the amount of light at different wavelengths—will reveal information about the planet’s surface composition and atmosphere.

There are several other factors influencing what could make a planet suitable for life as we know it. One of those factors is the amount of harmful X-rays and ultraviolet light they receive. These can damage or even strip away a planet’s atmosphere.

A team of astronomers began with a list of stars that are close enough to Earth that future ground and space-based telescopes could make images of planets in their habitable zone. These future telescopes include the Habitable Worlds Observatory and ground-based Extremely Large Telescopes.

Based on X-ray observations of stars using data from Chandra and XMM-Newton, the researchers examined what ones could have hospitable conditions on orbiting planets for life to form and prosper.

The team studied how bright the stars are in X-rays, how energetic the X-rays are, and how much and how quickly they change in X-ray output, for example, due to flares. Brighter and more energetic X-rays can cause more damage to the atmospheres of orbiting planets.

They identified stars where the habitable zone’s X-ray radiation environment is similar to or even milder than the one in which Earth evolved. Such conditions may play a key role in sustaining a rich atmosphere like the one found on Earth.

Observing time on the next generation of telescopes will be precious and extremely difficult to obtain. These X-ray data are helping to refine and prioritize the list of targets and may allow the first image of a planet like the Earth to be obtained more quickly.


Video Credit: Cal Poly Pomona/B. Binder

Illustration: NASA/CXC/M.Weiss

Duration: 2 minutes, 47 seconds

Release Date: June 12, 2024


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Ed Stone: Former JPL Director & Voyager Project Scientist (1936-2024) | NASA

Ed Stone: Former JPL Director & Voyager Project Scientist (1936-2024) | NASA

Ed Stone, former director of the Jet Propulsion Laboratory (JPL) and project scientist for the Voyager mission, died on June 9, 2024. A friend, mentor, and colleague to many, he was known for his straightforward leadership and commitment to communicating with the public. 

Known for his steady leadership, consensus building, and enthusiasm for engaging the public in science, Stone left a deep impact on the space community.

Edward C. Stone was preceded in death by his wife, Alice Stone, whom he met at the University of Chicago. They are survived by their two daughters, Susan and Janet Stone, and two grandsons.

Stone also served as the David Morrisroe professor of physics and vice provost for special projects at Caltech in Pasadena, California, which last year established a new faculty position, the Edward C. Stone Professorship.

Ed Stone, former director of NASA’s Jet Propulsion Laboratory and longtime project scientist of the Voyager mission, passed away on June 9, 2024. He was 88 years old.

“Ed Stone was a trailblazer who dared mighty things in space. He was a dear friend to all who knew him, and a cherished mentor to me personally,” said Nicola Fox, associate administrator for the Science Mission Directorate at NASA Headquarters in Washington. “Ed took humanity on a planetary tour of our solar system and beyond, sending NASA where no spacecraft had gone before. His legacy has left a tremendous and profound impact on NASA, the scientific community, and the world. My condolences to his family and everyone who loved him. Thank you, Ed, for everything.”

Stone served on nine NASA missions as either principal investigator or a science instrument lead, and on five others as a co-investigator (a key science instrument team member). These roles primarily involved studying energetic ions from the Sun and cosmic rays from the galaxy. He had the distinction of being one of the few scientists involved with both the mission that has come closest to the Sun (NASA’s Parker Solar Probe) and the one that has traveled farthest from it (Voyager).

“Ed will be remembered as an energetic leader and scientist who expanded our knowledge about the universe—from the Sun to the planets to distant stars—and sparked our collective imaginations about the mysteries and wonders of deep space,” said Laurie Leshin, JPL director and Caltech vice president. “Ed’s discoveries have fueled exploration of previously unseen corners of our solar system and will inspire future generations to reach new frontiers. He will be greatly missed and always remembered by the NASA, JPL, and Caltech communities and beyond.”

At the Helm of Voyager

Stone is best known for his work on NASA’s longest-running mission, Voyager, whose twin spacecraft launched in 1977 and are still exploring deep space today. He served as Voyager’s sole project scientist from 1972 until his retirement in 2022. Under Stone’s leadership, the mission took advantage of a celestial alignment that occurs just once every 176 years to visit Jupiter, Saturn, Uranus, and Neptune. During their journeys, the spacecraft revealed the first active volcanoes beyond Earth, on Jupiter’s moon Io, and an atmosphere rich with organic molecules on Saturn’s moon Titan. Voyager 2 remains the only spacecraft to fly by Uranus and Neptune, revealing Uranus’ unusual tipped magnetic poles, and the icy geysers erupting from Neptune’s moon Triton.

Now more than 15 billion miles (24 million kilometers) from Earth, Voyager 1 is the most distant human-made object. Voyager 2, traveling slightly slower and in a different direction, is more than 12 billion miles (20 billion km) from Earth. Both probes are exploring interstellar space—the region outside the heliosphere, which is a protective bubble created by the Sun’s magnetic field and the outward flow of charged particles.

“Becoming Voyager project scientist was the best decision I made in my life,” Stone said in 2018. “It opened a wonderful door of exploration.”

He was particularly proud of the way Voyager quickened the pace of scientific analysis and took advantage of opportunities to engage the public. When Voyager 1 and 2 made their close flybys of the giant planets between 1979 and 1989, Stone was overseeing 11 teams of scientists, all accustomed to releasing their results at a slower pace through peer-reviewed journals.

Stone took the lead in tailoring the peer-review process to the faster pace of the mission’s planetary encounters: In the early afternoon, after data had come down, teams of scientists would decide what they thought their best results were for the day and hold up their conclusions for feedback in front of the whole science steering group.

Based on that discussion, Stone would choose the most interesting results to present to the media and the public the next morning. The scientists would then hone their presentations that evening and even overnight — with Stone often pressing them to come up with analogies that would make the material more approachable for a lay audience—while a graphics team worked on putting together supporting images. After the news conference the following morning, the process would begin anew. This cycle could continue daily through the duration of each planetary encounter.

“It was a very exciting time, and everyone was making discoveries,” said Stamatios “Tom” Krimigis of the Johns Hopkins Applied Physics Laboratory, who has served as the principal investigator of Voyager’s low-energy charged particles instrument since the mission’s launch. “Ed’s approach showed us how much public interest there really was in what Voyager was doing, but it also resulted in better science. You need more than one piece of information to make a picture, and hearing about other scientists’ data helped us interpret our own.”

It was a process that continued to serve the Voyager team well in 2012 and 2013 as they debated whether or not Voyager 1 had exited the heliosphere and entered interstellar space. Some signs pointed to a new environment, but one key marker — the direction of the magnetic field lines around Voyager — hadn’t changed as significantly as scientists expected.

The team remained puzzled for months until Voyager 1’s plasma wave instrument detected a significantly denser plasma environment around the spacecraft — the result of a chance outburst of material from the Sun that set the plasma around Voyager 1 ringing like a bell. Stone gathered the team.

“Nobody could wait to get to interstellar space, but we wanted to get it right,” said Suzanne Dodd, who has served as Voyager project manager, overseeing the engineering team, at JPL since 2010. “We knew there would be people who disagreed. So Ed wanted to understand the full story and the assumptions people were making. He did a good job listening to everybody and letting them participate in the dialogue without anyone monopolizing. Then he made a decision.”

Stone realized that the scientists didn’t need to fixate on the direction of the magnetic field lines. They were a proxy for the plasma environment. The team concluded that the plasma wave science instrument’s detection provided a better analysis of the current plasma environment and was evidence of humankind’s arrival into interstellar space.

Leading JPL

Voyager’s high profile lifted Stone’s profile as well. In 1991, roughly two years after the mission completed its planetary flybys, Stone became director of JPL, serving until 2001. Under his leadership, JPL was responsible for more than two dozen missions and instruments. Highlights for Stone’s tenure included landing NASA’s Pathfinder mission with the first Mars rover, Sojourner, in 1996 and launching the NASA-ESA (European Space Agency) Cassini/Huygens mission in 1997. The first Saturn orbiter, Cassini was a direct outgrowth of the scientific questions that arose from Voyager’s two flybys, and it carried the only probe that has ever landed in the outer solar system (at Titan).

The 1990s were an era of shifting national priorities after the Cold War, with significant cuts in spending in the NASA and defense budgets. Stone restructured several missions so that they could fly under these more stringent cost constraints, including overseeing a redesign of the Spitzer Space Telescope cooling system so that it was more cost effective and could still deliver high-impact science and stunning infrared images of the universe.

Journey to Space

Edward Carroll Stone Jr. was born on Jan. 23, 1936, in Knoxville, Iowa. The eldest of two sons of Edward Carroll Stone Sr. and Ferne Elizabeth Stone, he grew up in the nearby commercial center of Burlington.

Edward Stone Sr. was a construction superintendent who delighted in showing his son how to take things apart and put them back together again — cars, radios, hi-fi stereos. When the younger Stone was in junior high, the principal asked him to learn how to operate the school’s 16 mm movie projector and soon followed up with a request to run the school’s reel-to-reel tape recorder.

“I was always interested in learning about why something is this way and not that way,” Stone said in an interview about this career in 2018. “I wanted to understand and measure and observe.”

His first job was at a J.C. Penney department store, where he worked his way up from stockroom to clerk on the store floor. He also earned money playing French horn in the Burlington Municipal Band.

After high school, Stone enrolled in Burlington Junior College to study physics, and went on to the University of Chicago for graduate school. Shortly after he was accepted, the Soviet Union launched Sputnik and the Space Age began.

“Space was a brand-new field waiting for discovery,” Stone recalled in 2018.

He joined a team at the university that was building science instruments to launch into space. The first he designed rode aboard Discoverer 36, a since-declassified spy satellite that launched in 1961 and took photographs of Earth from space as part of the Corona program. Stone’s instrument, which measured the Sun’s energetic particles, helped scientists figure out why solar radiation was fogging the film and ultimately improved their understanding of the Van Allen belts, energetic particles trapped in Earth’s magnetic field.

In 1964, Stone joined Caltech as a postdoctoral fellow, running the university’s Space Radiation Lab together with Robbie Vogt, who had been a colleague at Chicago. They worked closely on a number of NASA satellite missions, studying galactic cosmic rays and solar energetic particles. In 1972, Vogt recommended Stone to JPL leadership for the position of Voyager project scientist, which he held for 50 years.

Among Stone’s many awards, the National Medal of Science from President George H.W. Bush stands out as the most prominent. In 2019 he won the Shaw Prize in Astronomy, with an award of $1.2 million, for his leadership in the Voyager project, which, as the citation noted, “has over the past four decades, transformed our understanding of the four giant planets and the outer solar system, and has now begun to explore interstellar space.” He was also proud to have a middle school named after him in Burlington, Iowa, as an inspiration to young learners.


Credit: NASA/Jet Propulsion Laboratory-Caltech

Release Date: June 11, 2024


#NASA #Astronomy #Space #Science #VoyagerSpacecraft #Voyager1 #Voyager2 #Planets #Mars #Jupiter #Saturn #SolarSystem #InterstellarSpace #MilkyWayGalaxy #SpaceExploration #EdStone #EdwardStone #Scientist #Explorer #Leader #JPL #Caltech #History #UnitedStates #STEM #Education