NASA has been seeking innovative solutions from the private sector to lower the retrieval costs, but the mission may be on hold for some time. Getting rocks from the Moon and even an asteroid seems easy by comparison.
Maybe NASA needs to seen another private sector solution – a study of Martian rocks on the surface of Mars. It may be easier to land a laboratory and conduct long-term experiments in situ rather than attempting a journey back to Earth. It is something to consider for now and may give us quicker access to the rocks.
Of course, we can always wait until Elon Musk lands on the Red Planet and retrieves them.
Image (Credit): The jellyfish galaxy JO206 trails across this image from the NASA/ESA Hubble Space Telescope. (ESA/Hubble & NASA, M. Gullieuszik and the GASP team)
This week’s image is from the Hubble Space Telescope. It shows the jellyfish galaxy JO206, which is about 700 million light-years away. A close-up of the galaxy iteself is provided below.
[Galaxy JO206 is] showcasing a colorful star-forming disk surrounded by a pale, luminous cloud of dust. A handful of foreground bright stars with crisscross diffraction spikes stands out against an inky black backdrop at the bottom of the image…
Jellyfish galaxies are so-called because of their resemblance to their aquatic namesakes. In the bottom right of this image, long tendrils of bright star formation trail the disk of JO206, just as jellyfish trail tentacles behind them. The tendrils of jellyfish galaxies are formed by the interaction between galaxies and the intra-cluster medium, a tenuous superheated plasma that pervades galaxy clusters. As galaxies move through galaxy clusters, they ram into the intracluster medium, which strips gas from the galaxies and draws it into the long tendrils of star formation.
The tentacles of jellyfish galaxies give astronomers a unique opportunity to study star formation under extreme conditions, far from the influence of the galaxy’s main disk. Surprisingly, Hubble revealed that there are no striking differences between star formation in the disks of jellyfish galaxies and star formation in their tentacles, which suggests the environment of newly formed stars has only a minor influence on their formation.
Image (Credit): Close-up of the jellyfish galaxy JO206 from the NASA/ESA Hubble Space Telescope. (ESA/Hubble & NASA, M. Gullieuszik and the GASP team)
“OceanGate is doing for deep sea exploration, discovery, and research what companies like SpaceX, Blue Origin, World View, and Virgin Galactic are doing for space exploration and discovery…I look forward to supporting OceanGate’s effort to document the Titanic and its role as a deep ocean artificial reef when I join the expedition as a crewmember this summer.“
-Statement by NASA planetary scientist Alan Stern in an OceanGate press release from March 2022. Dr. Stern is best known for his role as the principal investigator of the New Horizons mission to explore Pluto and the Kuiper Belt. The press release also discusses NASA’s assistance to OceanGate in the development of the Titan submersible that is still lost in the Atlantic after a mission to take tourists to see the late Titanic. While Dr. Stern mentions exploration and discovery, this was simply tourism gone wrong. Tourism is a lucrative aspect of the four space companies listed above, but it is not without its risks. Fortunately, Dr. Stern had a good trip last summer, and we can only hope the five individuals on the Titan will also return safely to the surface.
Image (Credit): The Vela pulsar, a neutron star that was formed when a massive star collapsed. (X-ray: NASA/CXC/Univ of Toronto/M.Durant et al; Optical: DSS/Davide De Martin)
Last year, the Event Horizon Telescope (EHT)—an international consortium of astronomers and observatories—announced they had taken the first images of Sag A*, which came just two years after the release of the first-ever images of an SMBH (M87). In 2014, the European members of the EHT launched another initiative known as BlackHoleCam to gain a better understanding of SMBHs using a combination of radio imaging, pulsar observations, astrometry, and GR. In a recent paper, the BHC initiative described how they tested GR by observing pulsars orbiting Sgr A*.
Using the James Webb Space Telescope, an MPIA-led group of astronomers searched for an atmosphere on rocky exoplanet TRAPPIST-1 c. Although the planet is nearly identical in size and temperature to Venus, its atmosphere has turned out to be very different. By analysing the heat emitted from the planet, they conclude it may only have a tenuous atmosphere with minimal carbon dioxide. However, this measurement is also consistent with a barren rocky planet without any significant atmosphere. This work contributes to our understanding of how the atmospheres of rocky planets orbiting low-mass stars can withstand their strong stellar winds and intense UV radiation.
Pope Francis sent a letter to young astronomy scholars Tuesday encouraging them to maintain their “sense of wonder” and surprise throughout their research. While praising the “great discoveries” of astronomy, he urged the researchers never to lose sight of other important realities such as love and friendship.
On this day in 1983, astronaut Sally Ride became the first American woman in space, traveling aboard the shuttle Challenger. And 20 years earlier on the same date, Russian cosmonaut Valentina Tereshkova, the first Russian female in space, returned to Earth aboard Vostok 6, after orbiting the planet 48 times. She still remains the only woman to travel into space on a solo mission.
Our Awesome Universe 