ESO: ALMA observes largest molecule yet in a planet-forming disc

March 8, 2022 TopSpacer

A new report from the European Southern Observatory (ESO):

Astronomers discover largest molecule yet in a planet-forming disc

This composite image features an artistic impression of the planet-forming disc around the IRS 48 star, also known as Oph-IRS 48. The disc contains a cashew-nut-shaped region in its southern part, which traps millimetre-sized dust grains that can come together and grow into kilometre-sized objects like comets, asteroids and potentially even planets. Recent observations with the Atacama Large Millimeter/submillimeter Array (ALMA) spotted several complex organic molecules in this region, including dimethyl ether, the largest molecule found in a planet-forming disc to date. The emission signaling the presence of this molecule (real observations shown in blue) is clearly stronger in the disc’s dust trap. A model of the molecule is also shown in this composite.

Using the Atacama Large Millimeter/submillimeter Array (ALMA) in Chile, researchers at Leiden Observatory in the Netherlands have for the first time detected dimethyl ether in a planet-forming disc. With nine atoms, this is the largest molecule identified in such a disc to date. It is also a precursor of larger organic molecules that can lead to the emergence of life.

“From these results, we can learn more about the origin of life on our planet and therefore get a better idea of the potential for life in other planetary systems. It is very exciting to see how these findings fit into the bigger picture,“

says Nashanty Brunken, a Master’s student at Leiden Observatory, part of Leiden University, and lead author of the study published today in Astronomy & Astrophysics.

Dimethyl ether is an organic molecule commonly seen in star-forming clouds, but had never before been found in a planet-forming disc. The researchers also made a tentative detection of methyl formate, a complex molecule similar to dimethyl ether that is also a building block for even larger organic molecules.

“It is really exciting to finally detect these larger molecules in discs. For a while we thought it might not be possible to observe them,”

says co-author Alice Booth, also a researcher at Leiden Observatory.

The molecules were found in the planet-forming disc around the young star IRS 48 (also known as Oph-IRS 48) with the help of ALMA, an observatory co-owned by the European Southern Observatory (ESO). IRS 48, located 444 light-years away in the constellation Ophiuchus, has been the subject of numerous studies because its disc contains an asymmetric, cashew-nut-shaped “dust trap”. This region, which likely formed as a result of a newly born planet or small companion star located between the star and the dust trap, retains large numbers of millimetre-sized dust grains that can come together and grow into kilometre-sized objects like comets, asteroids and potentially even planets.

These images from the Atacama Large Millimeter/submillimeter Array (ALMA) show where various gas molecules were found in the disc around the IRS 48 star, also known as Oph-IRS 48. The disc contains a cashew-nut-shaped region in its southern part, which traps millimetre-sized dust grains that can come together and grow into kilometre-sized objects like comets, asteroids and potentially even planets. Recent observations spotted several complex organic molecules in this region, including formaldehyde (H2CO; orange), methanol (CH3OH; green) and dimethyl ether (CH3OCH3; blue), the last being the largest molecule found in a planet-forming disc to date. The emission signaling the presence of these molecules is clearly stronger in the disc’s dust trap, while carbon monoxide gas (CO; purple) is present in the entire gas disc. The location of the central star is marked with a star in all four images. The dust trap is about the same size as the area taken up by the methanol emission, shown on the bottom left.

Many complex organic molecules, such as dimethyl ether, are thought to arise in star-forming clouds, even before the stars themselves are born. In these cold environments, atoms and simple molecules like carbon monoxide stick to dust grains, forming an ice layer and undergoing chemical reactions, which result in more complex molecules. Researchers recently discovered that the dust trap in the IRS 48 disc is also an ice reservoir, harbouring dust grains covered with this ice rich in complex molecules. It was in this region of the disc that ALMA has now spotted signs of the dimethyl ether molecule: as heating from IRS 48 sublimates the ice into gas, the trapped molecules inherited from the cold clouds are freed and become detectable.

“What makes this even more exciting is that we now know these larger complex molecules are available to feed forming planets in the disc,” explains Booth. “This was not known before as in most systems these molecules are hidden in the ice.”

The discovery of dimethyl ether suggests that many other complex molecules that are commonly detected in star-forming regions may also be lurking on icy structures in planet-forming discs. These molecules are the precursors of prebiotic molecules such as amino acids and sugars, which are some of the basic building blocks of life.

By studying their formation and evolution, researchers can therefore gain a better understanding of how prebiotic molecules end up on planets, including our own.

“We are incredibly pleased that we can now start to follow the entire journey of these complex molecules from the clouds that form stars, to planet-forming discs, and to comets. Hopefully with more observations we can get a step closer to understanding the origin of prebiotic molecules in our own Solar System,”

says Nienke van der Marel, a Leiden Observatory researcher who also participated in the study.

Annotated image from the Atacama Large Millimeter/submillimeter Array (ALMA) showing the dust trap in the disc that surrounds the system Oph-IRS 48. The dust trap provides a safe haven for the tiny dust particles in the disc, allowing them to clump together and grow to sizes that allow them to survive on their own. The green area is the dust trap, where the bigger particles accumulate. The size of the orbit of Neptune is shown in the upper left corner to show the scale.

Future studies of IRS 48 with ESO’s Extremely Large Telescope (ELT), currently under construction in Chile and set to start operations later this decade, will allow the team to study the chemistry of the very inner regions of the disc, where planets like Earth may be forming.

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The Space Show this week – March.7.2022

March 7, 2022 TopSpacer

The guests and topics of discussion on The Space Show this week:

1. Tuesday, Mar. 8, 2022; 7 pm PST (9 pm CST, 10 pm EST): We welcome back Joe Carroll to discuss his guest post on the David Brin blog. See our blog for his post which forms the discussion for tonight.

2. Hotel Mars – Wednesday, Mar. 9, 2022; 1:00 pm PST (3:00 pm CST, 4:00 pm EST): Douglas Messier returns to discuss SpaceX prioritizing for cyber defense and related news.

3. Friday, Mar.11, 2022; 9:30-11 am PST (11:30 am-1 pm CST, 12:30-2 pm EST): We welcome Nathan Hirsch and Jonathan Zarate to discuss the USC Liquid Propulsion Lab (LPL), its history, past and current projects, and plans.

4. Sunday, Mar.13, 2022; 12-1:30 pm PST (2-3:30 pm CST, 3-4:30 pm EST): This program is under construction at this time due to Space Show book writing schedules. Check the Upcoming Show Menu on our website for updates later in the week.

Some recent shows:

** Sunday, March.6.2022 – James A. M. Muncy discussed “commercial space and policy updates, Ukrainian impact on NewSpace”.

** Friday, March.4.2022 – Marc Bell, CEO of Terran Orbital gave a “brief cubesat history, LEO, MEO & GEO satellites, lunar satellites, DOD and intelligence agency customers and products, funding, public stock issues, and more“.

** Hotel Mars – Wednesday, March.2.2022 – Dr. Jeff Foust talked with John Batchelor and Dr. David Livingston about the “state and future of the ISS due to the Russian invasion of Ukraine“.

** Tuesday, March.1.2022 – Michael Listner discussed “India, international space cooperation, norms, lawfare, Russia and Ukraine, congress passing a budget authorization, Artemis Accords, the ISS future, militarization of space, Eric Berger, NewSpace economic slowdown, FlightAware, stalled space legislation, commercial satellites & Ukraine, NEEP, FAA & SpaceX, FCC litigation with VIASAT and more“.

The Space Show is a project of the One Giant Leap Foundation .

The Space Show - David Livingston — The Space Show – Dr. David Livingston

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Videos: “Space to Ground” & other space habitat reports – March.4.2022

March 4, 2022 TopSpacer

Here is the latest episode in NASA’s Space to Ground weekly report on activities related to the International Space Station:

** Expedition 66 Space Station Crew Answers Ohio Student Questions – March 2, 2022 – NASA Video

Aboard the International Space Station, NASA Expedition 66 Flight Engineers Raja Chari and Tom Marshburn of NASA answered pre-recorded questions about life and work on the orbital laboratory during an in-flight event March 2 with the Glenn Research Center in Cleveland, Ohio. Chari and Marshburn are in the midst of a planned six-month mission living and working aboard the microgravity laboratory to advance scientific knowledge and demonstrate new technologies for future human and robotic exploration missions as part of NASA’s Moon and Mars exploration approach, including lunar missions through NASA’s Artemis program.

** NLRA 2022-6: In-space Production Applications: Advanced Materials and Manufacturing – ISS National Lab – YouTube

On February 28, 2022, the ISS National Lab held a webinar to provide further background on NLRA 2022-6 and to answer any questions.

** Episode 58 – Geopolitics, Cooperation and the ISS – Space Thoughts

** Keeping it fluid(ics) | Cosmic Kiss 360° – European Space Agency, ESA on Youtube

Europe’s Columbus laboratory is a hive of activity in this 360° timelapse as ESA astronaut Matthias Maurer works on an experiment called Fluidics and his @NASA colleague Raja Chari carries out activity in the Veggie plant habitat. Developed by French space agency @CNES and co-funded by @Airbus, the Fluidics experiment investigates how liquids behave in space. It was first run by ESA astronaut Thomas Pesquet in 2017 during his Proxima mission. Made up of six small, transparent spheres housed in the black centrifuge seen here, the experiment studies two phenomena. The first is ‘sloshing’ or how liquids move in enclosed spaces. The second is wave turbulence. Understanding the underlying physics of how liquids move in space will help improve the fuel economy of spacecraft and our knowledge of Earth’s oceans. By observing how surface forces behave in reduced gravity and singling out interactions, scientists aim to improve climate models for forecasting sea states and better understand wave formation on Earth. Fluidics is just one of many European and international science experiments Matthias is supporting throughout his six-month Cosmic Kiss mission.

Follow Matthias: https://bit.ly/ESACosmicKiss

** Media Briefing: NASA, Axiom, & SpaceX Officials Discuss 1st Private Astronaut Space Station Mission – Axiom Space

Axiom Space will host a virtual press conference at 11 a.m. EST Monday, Feb. 28, to preview the launch of Ax-1, the first all-private astronaut mission to the International Space Station (ISS). The launch is targeted for Wednesday, March 30 at 2:46 p.m. EDT from Launch Complex 39A (LC-39A) at NASA’s Kennedy Space Center in Florida.

During the 10-day mission, which includes eight days aboard the space station, the four-person multi-national crew will complete more than 25 research experiments developed for microgravity in collaboration with leading health and science organizations across the globe. Axiom Space, a leader in human spaceflight and space infrastructure, is committed to the commercialization of low Earth orbit.

Briefing participants are:
• Michael Suffredini, President and CEO, Axiom
• Michael López-Alegría, Ax-1 Crew Commander, Axiom
• Christian Maender, Director, In-Space Research and Manufacturing, Axiom
• Kathy Lueders, Associate Administrator, Space Operations, NASA
• Robyn Gatens, Director, International Space Station, NASA
• Phil McAllister, Director, Commercial Spaceflight Division, NASA
• Benjamin Reed, Sr. Director, Human Spaceflight Programs, SpaceX

Ax-1’s crew includes Michael López-Alegría, Axiom vice president and former NASA astronaut, as commander; American entrepreneur and non-profit activist investor Larry Connor as pilot; investor and philanthropist Mark Pathy of Canada as mission specialist; and impact investor and philanthropist Eytan Stibbe of Israel as mission specialist. Axiom Space has contracted SpaceX to launch the Ax-1 crew to the International Space Station aboard a Falcon 9 rocket and Dragon spacecraft. Ax-1 is the first of several planned Axiom missions to the space station, each a critical step toward Axiom Station, the first private space station. This new method of access to low-Earth orbit is progress toward a next generation platform, which will serve as a center for scientists, innovators, and entrepreneurs to pursue revolutionary breakthroughs in the unique environment of microgravity.

For more information about Axiom Space and the Ax-1 mission, please visit: https://www.axiomspace.com

** ISS Live video stream – IBM/ISS HD Earth Viewing Experiment

Currently, live views from the ISS are streaming from an external camera mounted on the ISS module called Node 2. Node 2 is located on the forward part of the ISS. The camera is looking forward at an angle so that the International Docking Adapter 2 (IDA2) is visible. If the Node 2 camera is not available due to operational considerations for a longer period of time, a continuous loop of recorded HDEV imagery will be displayed. The loop will have “Previously Recorded” on the image to distinguish it from the live stream from the Node 2 camera. After HDEV stopped sending any data on July 18, 2019, it was declared, on August 22, 2019, to have reached its end of life. Thank You to all who shared in experiencing and using the HDEV views of Earth from the ISS to make HDEV so much more than a Technology Demonstration Payload!

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Night sky highlights for March 2022

March 2, 2022 TopSpacer

** What’s Up: March 2022 Skywatching Tips from NASA – NASA JPL

What are some skywatching highlights in March 2022? Look for Saturn to join Venus and Mars in the morning sky around mid-month. In the evenings, find the Y-shaped constellation Taurus, the bull, high in the southwest. The Hyades star cluster forms the bull’s face. Then take a tour of four easy-to-find stars that have known planets of their own orbiting them.

0:00 Intro
0:11 Morning planets
0:37 Hyades star cluster
2:11 Easy to find exoplanets
3:30 Moon phases

Additional information about topics covered in this episode of What’s Up, along with still images from the video, and the video transcript, are available at https://solarsystem.nasa.gov/skywatch….

** Tonight’s Sky: March – Space Telescope Science Institute – Tonight’s Sky

In March, the stars of spring lie eastward: Look for the constellations Gemini and Cancer to spot interesting celestial features like star clusters M35 and the Beehive Cluster, and NGC 3923, an oblong elliptical galaxy with an interesting ripple pattern. Keep watching for space-based views of the galaxies.

** What to see in the night sky: March 2022 – BBC Sky at Night Magazine

What can you see in the night sky tonight? Astronomers Pete Lawrence and Paul Abel reveal their night-sky highlights for March 2022.

** What’s in the Night Sky March 2022 #WITNS | Zodiacal Light | Equinox – Alyn Wallace

00:00 Intro
00:50 Squarespace
01:39 Northern Hemisphere Night Sky
04:38 Southern Hemisphere Night Sky
07:23 Star Tracker Target
08:09 Moon
08:28 Equinox
09:17 Zodiacal Light
13:45 #WITNS Winners

** Night Sky Notebook March 2022 – Peter Detterline

What’s happening in the skies above for March 2022.

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ESO: No black hole found in “closest black hole” system

March 2, 2022 TopSpacer

A new report from the European Southern Observatory (ESO):

“Closest black hole” system found to contain no black hole

New research using data from ESO’s Very Large Telescope and Very Large Telescope Interferometer has revealed that HR 6819, previously believed to be a triple system with a black hole, is in fact a system of two stars with no black hole. The scientists, a KU Leuven-ESO team, believe they have observed this binary system in a brief moment after one of the stars sucked the atmosphere off its companion, a phenomenon often referred to as “stellar vampirism”. This artist’s impression shows what the system might look like; it’s composed of an oblate star with a disc around it (a Be “vampire” star; foreground) and B-type star that has been stripped of its atmosphere (background).

In 2020 a team led by European Southern Observatory (ESO) astronomers reported the closest black hole to Earth, located just 1000 light-years away in the HR 6819 system. But the results of their study were contested by other researchers, including by an international team based at KU Leuven, Belgium. In a paper published today, these two teams have united to report that there is in fact no black hole in HR 6819, which is instead a “vampire” two-star system in a rare and short-lived stage of its evolution.

The original study on HR 6819 received significant attention from both the press and scientists. Thomas Rivinius, a Chile-based ESO astronomer and lead author on that paper, was not surprised by the astronomy community’s reception to their discovery of the black hole.

“Not only is it normal, but it should be that results are scrutinised,” he says, “and a result that makes the headlines even more so.”

Rivinius and his colleagues were convinced that the best explanation for the data they had, obtained with the MPG/ESO 2.2-metre telescope, was that HR 6819 was a triple system, with one star orbiting a black hole every 40 days and a second star in a much wider orbit. But a study led by Julia Bodensteiner, then a PhD student at KU Leuven, Belgium, proposed a different explanation for the same data: HR 6819 could also be a system with only two stars on a 40-day orbit and no black hole at all. This alternative scenario would require one of the stars to be “stripped”, meaning that, at an earlier time, it had lost a large fraction of its mass to the other star.

“We had reached the limit of the existing data, so we had to turn to a different observational strategy to decide between the two scenarios proposed by the two teams,”

says KU Leuven researcher Abigail Frost, who led the new study published today in Astronomy & Astrophysics.

To solve the mystery, the two teams worked together to obtain new, sharper data of HR 6819 using ESO’s Very Large Telescope (VLT) and Very Large Telescope Interferometer (VLTI).

“The VLTI was the only facility that would give us the decisive data we needed to distinguish between the two explanations,“

says Dietrich Baade, author on both the original HR 6819 study and the new Astronomy & Astrophysics paper. Since it made no sense to ask for the same observation twice, the two teams joined forces, which allowed them to pool their resources and knowledge to find the true nature of this system.

“The scenarios we were looking for were rather clear, very different and easily distinguishable with the right instrument,” says Rivinius. “We agreed that there were two sources of light in the system, so the question was whether they orbit each other closely, as in the stripped-star scenario, or are far apart from each other, as in the black hole scenario.”

To distinguish between the two proposals, the astronomers used both the VLTI’s GRAVITY instrument and the Multi Unit Spectroscopic Explorer (MUSE) instrument on ESO’s VLT.

“MUSE confirmed that there was no bright companion in a wider orbit, while GRAVITY’s high spatial resolution was able to resolve two bright sources separated by only one-third of the distance between the Earth and the Sun,” says Frost. “These data proved to be the final piece of the puzzle, and allowed us to conclude that HR 6819 is a binary system with no black hole.”

“Our best interpretation so far is that we caught this binary system in a moment shortly after one of the stars had sucked the atmosphere off its companion star. This is a common phenomenon in close binary systems, sometimes referred to as “stellar vampirism” in the press,” explains Bodensteiner, now a fellow at ESO in Germany and an author on the new study. “While the donor star was stripped of some of its material, the recipient star began to spin more rapidly.”

“Catching such a post-interaction phase is extremely difficult as it is so short,” adds Frost. “This makes our findings for HR 6819 very exciting, as it presents a perfect candidate to study how this vampirism affects the evolution of massive stars, and in turn the formation of their associated phenomena including gravitational waves and violent supernova explosions.”

The newly formed Leuven-ESO joint team now plans to monitor HR 6819 more closely using the VLTI’s GRAVITY instrument. The researchers will conduct a joint study of the system over time, to better understand its evolution, constrain its properties, and use that knowledge to learn more about other binary systems.