A sampling of recent articles, videos, and images from space-related science news items (find previous roundups here):

** Reviews of major space science news in 2019 and the past decade:

• The Decade in Spaceflight: NASA Shuttles Retired as Private Spaceships Took Flight in the 2010s – Space.com
• Year in Aerospace: Will Boeing go from 2019’s troubles to a 2020 comeback? – GeekWire

Astronomy

** Is Betelgeuse about to go supernova?  Recent dimming of the red super giant star got people discussing the possibility, but it’s unlikely to happen anytime soon (on a human timescale). Here are a couple of discussions of Betelgeuse by Scott Manley and Fraser Cain:

Exoplanets

** NASA’s ASTERIA goes silent after successfully demonstrating a low-cost smallsat can do exoplanet searches. Tiny Satellite for Studying Distant Planets Goes Quiet – NASA JPL

ASTERIA observed a handful of nearby stars and successfully demonstrated that it could achieve precision measurements of the stars’ brightness. With that data, scientists look for dips in a star’s light that would indicate an orbiting planet passing between the satellite and the star. (This planet-hunting technique is called the transit method.) Mission data is still being analyzed to confirm whether ASTERIA spotted any distant worlds.

Since completing its primary mission objectives in early February 2018, ASTERIA has continued operating through three mission extensions. During that time, it has been used as an in-space platform to test various capabilities to make CubeSats more autonomous, some of which are based on artificial intelligence programs. ASTERIA also made opportunistic observations of the Earth, a comet, other spacecraft in geo-synchronous orbit and stars that might host transiting exoplanets.

** Planetary Imaging Concept Testbed Using a Recoverable Experiment – Coronagraph (PICTURE-C)  tests techniques for direct imaging of exoplanets: A real-life deluminator for spotting exoplanets by reflected starlight – The Conversation

PICTURE-C’s coronagraph creates artificial eclipses to dim or eliminate starlight without dimming the planets that the stars illuminate. It is designed to capture faint asteroid belt like objects very close to the central star.

While a coronagraph is necessary for direct imaging of exoplanets, our 6,000 pound device also includes deformable mirrors to correct the shape of the the telescope mirrors that get distorted due to changes in gravity, temperature fluctuations and other manufacturing imperfections.

Finally, the entire device has to be held steady in space for relatively long periods of time. A specially NASA-designed gondola called Wallops Arc Second Pointer (WASP) carried PICTURE-C and got us part way. An internal image stabilization system designed by my colleagues provided the “steady hand” necessary.

Sun

** Sunspots return. After an unusually long period of about six months with few or zero spots, several appeared on the face of the Sun in December. They also displayed the change in magnetic polarization that indicates they belong to the next phase of the solar cycle. The Next Solar Cycle is Coming – SpaceWeather.com

The pace of new-cycle sunspots is definitely intensifying. 2020 is only three days old, and already there is a Solar Cycle 25 ‘spot on the sun: AR2755. The sunspot is inset in this magnetic map from NASA’s Solar Dynamics Observatory:

We know that AR755 belongs to the next solar cycle because of its magnetic polarity. It’s reversed. According to Hale’s Law, sunspot polarities flip-flop from one solar cycle to the next. During old Solar Cycle 24, we grew accustomed to sunspots in the sun’s southern hemisphere having a -/+ pattern. AR2755 is the reverse: +/-, marking it as a member of new Solar Cycle 25.

This is the 3rd consecutive month that Solar Cycle 25 sunspots have appeared: Nov. 2019, Dec. 2019, and now Jan. 2020. The quickening pace of new cycle sunspots does not mean that Solar Minimum is finished. On the contrary, low sunspot counts will likely continue for many months and maybe even years. However, it is a clear sign that Solar Cycle 25 is coming to life. The doldrums won’t last forever.

Bob Zimmerman wrote back in December about the current minimum in the solar cycle, which, even with the rise of a few new spots, is unusually long: Sunspot update Nov 2019: The longest flatline in centuries | Behind The Black

The Sun is now in what appears to be the longest stretch ever recorded, since the 11-year solar sunspot cycle reactivated in the 1700s after the last grand minimum, of sunspot inactivity. This record-setting dearth of practically no sunspots has now stretched to six months in a row.

Moon

** China’s Chang’e 4 lander and rover mission continues 1 year after landing on the far side of the Moon on January 3rd, 2019.

• China’s lunar rover travels over 357 meters on moon’s far side – Chinadaily.com.cn
• On Far Side of the Moon, Chinese Lander and Rover Hit One-Year Mark | Space.com
• Photos from the Moon’s Far Side! China’s Chang’e 4 Lunar Landing in Pictures | Space.com
• China’s lunar rover Jade Rabbit-2 breaks record of working time on Moon – Xinhua
• Chang’e-4 | The Planetary Society

Asteroids and Comets

** Planetary Society announces winners of latest Shoemaker NEO Grant awards: Announcing the 2019 Shoemaker NEO Grant Winners | The Planetary Society

[The] grants support very advanced amateur astronomers around the world in their efforts to find, track, and characterize near Earth asteroids. 

The world’s professional sky surveys alone cannot handle the burden of defending the Earth from potentially dangerous asteroids. Our Shoemaker grant winners contribute in particular to two areas of planetary defense: 

• • Characterization: Some winners focus on asteroid characterization to determine asteroid properties. They typically carry out photometry (brightness) studies to determine properties like spin rate and whether what looks like one asteroid is actually two asteroids—a binary pair. This type of information will be crucial when an asteroid deflection is required, and in the meantime, for understanding the near-Earth asteroid population in general. 
  • Tracking: Other winners focus on astrometric (sky position) tracking observations that are necessary for calculating orbits, which tells us whether an asteroid will hit Earth. Without these follow-up observations of newly discovered asteroids, the asteroids can even be lost.

** SETI Institute‘s Senior Astronomer Seth Shostak discusses Comet 2I/B Borisov:

** OSIRIS-REx mission selects spot on asteroid Bennu to collect the sample that will be returned to Earth: X Marks the Spot: NASA Selects Site for Asteroid Sample Collection – OSIRIS-REx Mission

Mars

** First Drive Test of NASA’s Mars 2020 Rover – NASA JPL

On Dec. 17, 2019, engineers took NASA’s next Mars rover for its first spin. The test took place in the Spacecraft Assembly Facility clean room at NASA’s Jet Propulsion Laboratory in Pasadena, California. This was the first drive test for the new rover, which will move to Cape Canaveral, Florida, in the beginning of next year to prepare for its launch to Mars in the summer. Engineers are checking that all the systems are working together properly, the rover can operate under its own weight, and the rover can demonstrate many of its autonomous navigation functions. The launch window for Mars 2020 opens on July 17, 2020. The rover will land at Mars’ Jezero Crater on Feb. 18, 2021.

More about the Mars 2020 rover: Media Get a Close-Up of NASA’s Mars 2020 Rover – NASA’s Mars Exploration Program

Scheduled to launch in July or August 2020, the Mars 2020 rover will land in Jezero Crater on Feb. 18, 2021. There it will search for signs of past microbial life, characterize Mars’ climate and geology, collect samples for future return to Earth and pave the way for human exploration of the Red Planet.

Both to ensure that as few Earthly microbes as possible hitch a ride to Mars and to keep out particles that could interfere with the rover’s operations, High Bay 1 comes with strict cleanliness standards: Anyone entering the clean room, whether a technician or a journalist, must wear a “bunny suit,” booties, a hair cover, a face mask and latex gloves. Because notepads and writing implements could shed dust and other particles, specially-approved paper and pens were provided to visiting media members on request.

In the coming weeks, engineers and technicians will pack the 2020 rover into a specially-designed container. After it arrives at the Cape, Mars 2020 will undergo final processing and testing before launch.

** Updates on Curiosity’s roving from Leonard David:

• Curiosity Mars Rover: Scenery Sampling
• Curiosity Mars Rover: Stunning Views
• Curiosity Mars Rover: New 2020 Photos
• Curiosity Mars Rover: Elevated Expectations
• Curiosity Mars Rover: New Scenic Shots!

** More analysis of images of the marvelous Martian surface – Bob Zimmerman

• Darkened craters on Mars
• Giant scallops on Mars
• Crater in the Martian northern lowlands
• A deep dive into Valles Marineris
• Martian impacts and streaks
• The dark splotches on Mars: Magnets for dust devils
• A new map of the water ice on Mars

** Are We About to Find Life on Mars? – SETI Institute

Over the past six months, numerous articles have reported weird anomalies in the atmosphere of Mars, from an outburst of methane in June 2019 to patterns in oxygen concentrations that cannot be explained by any known atmospheric or surface processes on the Red Planet. Perhaps more intriguing is the Viking Lander (Viking LR) experiment. In 1976, each of the two Viking landers performed experiments on Martian soil samples. The samples tested positive for metabolism, and researchers recently claimed that like on Earth, this is a sign for the presence of a Martian life. Finally, an Ohio scientist claims to have found photographic proof of “insect and reptile-like” life on Mars. This controversial result has been discussed at length in the media, even though most scientists rejected it.

What does this mean? Are we on the verge of announcing the most profound story since humans first wondered about the existence of life elsewhere? Or are these coincidences that can be explained by geological processes, failed experiments or pareidolia?

We invited two SETI Institute scientists who are experts on Mars to discuss these exciting and out of this world results. Biologist Kathryn Bywaters who has studied life in some of the most extreme environments on Earth and planetary scientist Pascal Lee who focuses on water on Mars and human exploration of the Red Planet. Both scientists will tell us if indeed we are about to discover life on Mars and the consequences of this significant discovery.

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The Planet Factory:
Exoplanets and the Search for a Second Earth

A sampling of recent articles, videos, and images from space-related science news items (find previous roundups here):

Exoplanets

** TESS (Transiting Exoplanet Survey Satellite) has found 29 exoplanets so far in a survey of southern sky: NASA’s TESS Presents Panorama of Southern Sky | NASA

… Constructed from 208 TESS images taken during the mission’s first year of science operations, completed on July 18, the southern panorama reveals both the beauty of the cosmic landscape and the reach of TESS’s cameras.

“Analysis of TESS data focuses on individual stars and planets one at a time, but I wanted to step back and highlight everything at once, really emphasizing the spectacular view TESS gives us of the entire sky,” said Ethan Kruse, a NASA Postdoctoral Program Fellow who assembled the mosaic at NASA’s Goddard Space Flight Center in Greenbelt, Maryland.

Within this scene, TESS has discovered 29 exoplanets, or worlds beyond our solar system, and more than 1,000 candidate planets astronomers are now investigating.

TESS divided the southern sky into 13 sectors and imaged each one of them for nearly a month using four cameras, which carry a total of 16 charge-coupled devices (CCDs). Remarkably, the TESS cameras capture a full sector of the sky every 30 minutes as part of its search for exoplanet transits. Transits occur when a planet passes in front of its host star from our perspective, briefly and regularly dimming its light. During the satellite’s first year of operations, each of its CCDs captured 15,347 30-minute science images. These images are just a part of more than 20 terabytes of southern sky data TESS has returned, comparable to streaming nearly 6,000 high-definition movies.

Solar system

** “Encounter with Ultima Thule: The Most Distant Object Humanity Has Ever Explored”

After encountering Pluto, the New Horizons spacecraft, for the first time flew by a member of the Kuiper Belt of icy objects beyond Neptune. This particular object, informally named “Ultimate Thule” (meaning the farthest place beyond the known world,) turned out to be a “contact binary” – two smaller icy worlds stuck together. Dr. Moore shares an insider’s view (with great images) of how the mission got there and what we learned at Ultima Thule.

Asteroids

** “ESO Telescope Reveals What Could be the Smallest Dwarf Planet Yet in the Solar System” | ESO

Astronomers using ESO’s SPHERE instrument at the Very Large Telescope (VLT) have revealed that the asteroid Hygiea could be classified as a dwarf planet. The object is the fourth largest in the asteroid belt after Ceres, Vesta and Pallas. For the first time, astronomers have observed Hygiea in sufficiently high resolution to study its surface and determine its shape and size. They found that Hygiea is spherical, potentially taking the crown from Ceres as the smallest dwarf planet in the Solar System.

As an object in the main asteroid belt, Hygiea satisfies right away three of the four requirements to be classified as a dwarf planet: it orbits around the Sun, it is not a moon and, unlike a planet, it has not cleared the neighbourhood around its orbit. The final requirement is that it has enough mass for its own gravity to pull it into a roughly spherical shape. This is what VLT observations have now revealed about Hygiea.

The making of a dwarf planet:

Computational simulation of the fragmentation and reassembly that led to the formation of Hygiea and its family of asteroids, following an impact with a large object. While changes in the shape of Hygiea occur after the impact, the dwarf-planet candidate eventually acquires a round shape.

** The story of Professor Amy Mainzer  and the NEOCam space asteroid observatory:  One scientist’s 15-year (and counting) quest to save Earth from asteroid impacts – The Space Review

NEOCam is a 50-centimeter telescope that will discover and characterize a large fraction of the asteroids and comets in the inner part of the solar system. It was supported based on its fundamental science, but the data that it will produce also serves planetary defense, which can be considered applied science. NASA administrator Jim Bridenstine has been called “passionate” about planetary defense and the American public agrees: in a recent AP-NORC poll of US priorities in space, monitoring asteroids was considered top priority by 68 percent of those polled, higher than any other category (59 percent prioritized scientific research and exploration; 23 percent and 27 percent prioritized human exploration of the Moon and Mars, respectively; and 19 percent prioritized a US military presence in space.) Imagine how much any presidential candidate would like to poll at 68 percent!

Sun

** The sun remains nearly spotless: Sunspot update October 2019: Sunspot activity continues to flatline | Behind The Black

Even though the previous 2008-2009 solar minimum was one of the deepest and longest ever recorded, the lack of sunspots in the past five months has significantly beaten it for inactivity, as shown on the first graph above. That previous minimum never had a period of even two months with so few sunspots. Furthermore, the Sun has now been blank 74% of the time in 2019, a record of blankness that beats the yearly record of either 2008 or 2009. If the Sun continues to be as blank as it has been for the next two months, 2019 will easily set the record for the year with the fewest sunspots ever recorded.

The big question remains: Are we heading for a grand minimum with no sunspots for decades? We still do not know. Even these unprecedented trends prove nothing, as we really do not yet have a clear understanding of why the Sun undergoes these various cycles of sunspot activity/inactivity. The Sun could still come back to life in the coming years. We can only wait and see.

Astronomy

** The captivating beauty of a galactic smashup: Hubble Captures Cosmic Face | ESA/Hubble

Although galaxy collisions are common — especially in the early universe — most are not head-on impacts like the collision that likely created this Arp-Madore system 704 million light-years from Earth. This violent encounter gives the system an arresting ring structure, but only for a short amount of time. The crash has pulled and stretched the galaxies’ discs of gas, dust, and stars outward, forming the ring of intense star formation that shapes the “nose” and “face” features of the system.

Ring galaxies are rare, and only a few hundred of them reside in our larger cosmic neighbourhood. The galaxies have to collide at just the right orientation so that they interact to create the ring, and before long they will have merged completely, hiding their messy past.

** Heavy element production seen at site of a neutron star collision that was spotted with gravitational wave detection: First identification of a heavy element born from neutron star collision | ESO

For the first time, a freshly made heavy element, strontium, has been detected in space, in the aftermath of a merger of two neutron stars. This finding was observed by ESO’s X-shooter spectrograph on the Very Large Telescope (VLT) and is published today in Nature. The detection confirms that the heavier elements in the Universe can form in neutron star mergers, providing a missing piece of the puzzle of chemical element formation.

In 2017, following the detection of gravitational waves passing the Earth, ESO pointed its telescopes in Chile, including the VLT, to the source: a neutron star merger named GW170817. Astronomers suspected that, if heavier elements did form in neutron star collisions, signatures of those elements could be detected in kilonovae, the explosive aftermaths of these mergers. This is what a team of European researchers has now done, using data from the X-shooter instrument on ESO’s VLT.

The Moon

** China’s lunar far-side exploration mission continues. Both the Yutu-2 rover and Chang’e-4 lander are demonstrating impressive resilience after multiple exposures to the deep cold of the 2 week long lunar nights. (Each uses a radioisotope heater unit to stay warm.) China’s lunar rover travels over 300 meters on moon’s far side – Xinhua

China’s lunar rover Yutu-2 has driven 318.62 meters on the far side of the moon to conduct scientific exploration of the virgin territory.

Both the lander and the rover of the Chang’e-4 probe have ended their work for the 11th lunar day, and switched to dormant mode for the lunar night on Monday (Beijing time), according to the Lunar Exploration and Space Program Center of the China National Space Administration.

The rover is now located 218.11 meters northwest of the lander.

…

The scientific tasks of the Chang’e-4 mission include conducting low-frequency radio astronomical observation, surveying the terrain and landforms, detecting the mineral composition and shallow lunar surface structure and measuring neutron radiation and neutral atoms.

** India’s Chandrayaan-2 orbiter starting to produce data from the 8 instruments aboard the spacecraft. The first findings include the detection of Argon-40 in the tenuous lunar atmosphere using a mass spectrometer and images with the Dual-Frequency Synthetic Aperture Radar (DF-SAR) that highlight the structures of image craters.

• India’s Moon Orbiter: Scientific Sleuthing – Leonard David
• Detection of Argon-40 in the lunar exosphere – ISRO
• Initial imaging and observations by Chandrayaan-2 Dual-Frequency Synthetic Aperture Radar (DF-SAR) – ISRO
• Chandrayaan-2 begins spectroscopic studies of lunar surface – ISRO

More about the orbiter:

• Chandrayaan2 Home – ISRO
• Chandrayaan-2 Mission Gallery – ISRO
• Chandrayaan-2 | The Planetary Society
• Chandrayaan-2 gallery – The Bruce Murray Space Image Library | The Planetary Society

** The LROC imager on the Lunar Reconnaissance Orbiter captures dramatic views of the Bhabha crater,  which lies within the South Pole–Aitken (SPA) basin on the Moon’s farside: Dawn Over Bhabha Crater | Lunar Reconnaissance Orbiter Camera

Suborbital space sciences

** Research on reusable suborbital rocket vehicles will be the focus of the 2020 Next-Generation Suborbital Researchers Conference (NSRC) in Broomfield, Colorado, March 2-4, 2020: Southwest Research Institute, Commercial Spaceflight Federation announce suborbital space researchers, educators conference – SwRI

The conference will provide an in-depth forum for attendees to learn more about funding and conducting research and public outreach aboard new commercial suborbital spaceflight systems — fortuitous byproducts of space tourism. Representatives from NASA, the Federal Aviation Administration, spaceports, and commercial suborbital and orbital vehicle operators will attend.

“A new era of routine access to suborbital space for researchers and educators is fast approaching,” said SwRI Associate Vice President Dr. Alan Stern, the NSRC program chair. “The 2020 conference will explore the many revolutionary ways this will affect space research and education.”

Organized by SwRI and the Commercial Spaceflight Federation (CSF), NSRC-2020 will feature dozens of keynote and invited presentations, panel discussions, workshops, aerospace tours, presentations, posters and networking opportunities.

“As a growing number of commercial space companies provide low-cost and frequent access to suborbital space for humans and research payloads, 2020 is the time to fully utilize this game-changing capability,” added Eric Stallmer, president of CSF. “NSRC-2020 will be the epicenter for researchers, educators, companies, students and entrepreneurs to connect and take part in this new era.”

NSRC is the premier conference for the suborbital space research and education community. The 2020 conference follows six previous, highly successful meetings since 2010. The program, sponsors, registration, logistics and other conference details are available at http://nsrc.swri.org.

Mars

** Insight‘s heat probe digger dug again and appeared to be doing well by getting traction from pressure put on its side by Insight’s robotic arm: Mole Digging on Mars: Breakthrough! – Leonard David – Oct.24.2019

“We have made important progress in our attempts to get the mole digging again…in fact, we got it digging again!”

That’s the word from Tilman Spohn of the German Aerospace Center’s (DLR) Institute of Planetary Research in Berlin. He’s the experiment leader on the Heat Flow and Physical Properties Package (HP3), the self-hammering “mole” designed to dig down as much as 16 feet (5 meters) and take Mars’ temperature.

but then it went into reverse:

• Mars InSight’s Mole Has Partially Backed Out of Its Hole – NASA’s InSight Mars Lander – Oct.27.2019
• InSight heat flow probe suffers setback – SpaceNews.com
• Ground teams studying setback with InSight’s subsurface heat probe – Spaceflight Now

NASA/JPL:

After making progress over the past several weeks digging into the surface of Mars, InSight’s mole has backed about halfway out of its hole this past weekend. Preliminary assessments point to unusual soil conditions on the Red Planet. The international mission team is developing the next steps to get it buried again.

A scoop on the end of the arm has been used in recent weeks to “pin” the mole against the wall of its hole, providing friction it needs to dig. The next step is determining how safe it is to move InSight’s robotic arm away from the mole to better assess the situation. The team continues to look at the data and will formulate a plan in the next few days.

** Latest on Curiosity’s travels:

• Rover update: October 28, 2019 | Behind The Black
• Curiosity takes selfie next to two of its most important drill holes | Behind The Black

** Glacier movements over the eons create striking structures at Euripus Mons: Ancient glacier flows on Mars | Behind The Black

You can see that this large apron is the result of repeated flows down from the mountain, with each new flow not quite traveling as far, creating a terraced slope extending many miles.

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