As we saw yesterday, there is a case to be made that the ocean beneath Pluto’s ice is still liquid, based on phase changes in ice under varying pressures and temperatures. Today we turn to another world with interesting oceanic possibilities, Enceladus. Here the data are problematic and contradictory. Flybys by the Cassini Saturn orbiter detected tiny deviations in the spacecraft’s trajectory that could be used to measure the gravity of the Saturnian moon. Weighing these perturbations in the spacecraft’s motion against the known topography of Enceladus, scientists could draw tentative conclusions about the moon’s internal structure. Enceladus appeared to be internally asymmetric, with an ice shell between 30 and 40 kilometers thick in the southern hemisphere, perhaps thickening to 60 kilometers at the equator. Moreover, the Cassini data were not sufficient to conclude anything about the extent of the ocean. Did it extend beneath the entire shell, or was it confined largely to the...

What accounts for Pluto's interesting landscape? As we accumulate more and more data from New Horizons, we're seeing a wide range of geologic activity on the surface, most of it involving such volatile ices as nitrogen, carbon dioxide and methane. But look at the troughs and scarps -- some of them hundreds of kilometers long and several kilometers deep -- and you're seeing what are thought to be extensional faults. These are faults associated with the stretching of the dwarf planet's crust, and in the New Horizons imagery, they appear geologically young. We could look toward tidal interactions with Charon for an answer to what is driving tectonic activity on Pluto, but the Pluto/Charon system has reached what a new paper on the matter calls "the end point of its tidal evolution," with the two objects locked into a synchronous state that makes the prospect unlikely. But changes in the ice shell are another matter, and as Noah Hammond (Brown University) and his fellow researchers are...

Rama is a name that resonates with science fiction fans who remember Arthur C. Clarke's wonderful Rendezvous with Rama (1973). The novel depicts a 50-kilometer starship that enters the Solar System and is intercepted by a human crew, finding remarkable and enigmatic things that I will leave undescribed for the pleasure of those who haven't yet read the book. Suffice it to say that among Clarke's many fine novels, Rendezvous with Rama is, along with The City and the Stars, a personal favorite. What a company called Made in Space Inc. has in mind is something different than Clarke's vision, though it too evokes names from the past, as we'll shortly see. Based in Mountain View, CA the company is embarking on an attempt to turn asteroids into small spacecraft that can move themselves to new trajectories. RAMA in this case stands for Reconstituting Asteroids into Mechanical Automata, and it proceeds by putting 'Seed Craft' on asteroids that will use materials found on the surface. This is...

One reason for catching up with recent planetary science here in the Solar System is the upcoming arrival of Juno, which enters into polar orbit around Jupiter on July 4. Juno's arrival is a reminder that the past year has been packed with interesting news from places like Pluto/Charon (New Horizons), Comet 67P/Churyumov-Gerasimenko (Rosetta), and the topic of today's post, the intriguing dwarf planet Ceres, as studied by the orbiting Dawn spacecraft. But the recent Ceres news hasn't just involved Dawn. Paolo Molaro (INAF-Trieste Astronomical Observatory) had led a study looking at the bright spots Dawn found upon approaching Ceres last year. The data Molaro and team drew on came from the European Southern Observatory's 3.6-meter instrument at La Silla and its HARPS spectrograph, which have shown us not only the motion of the bright spots as Ceres rotates but also variations that indicate volatile material within them. The suggestion is that this material evaporates when exposed to...

Friday's look at the possible composition of Pluto's Sputnik Planum took me into a deep enough dive on the two papers -- Pluto gets my full attention! -- that I ran out of time. I had planned to include the images below in that post, but we can do that this morning as a reminder that New Horizons shows no signs of running out of data. What caught my eye here was the possible presence of a cloud, which you can see at the top right of the left image, and in the top inset image. The wispy structure is tens of kilometers across (the entire inset measures about 230 kilometers) and if it is a cloud, it's the only one we've yet picked out of the New Horizons imagery. But if you consider the rest of the image, it would make sense that we could see a cloud here -- notice how the haze layers are brightened by the sunlight that grazes Pluto's surface at a low angle. Also in the top right inset, the southern parts of Sputnik Planum's nitrogen ice fields show up (click the image to enlarge),...

It's been a week spent catching up with space mission news, focusing on Rosetta, Juno and today, New Horizons. Usually I ponder what I'm going to write each day on Centauri Dreams while I'm having breakfast, a quiet time to reflect on recent events. And if Jay Melosh (Purdue University) is to be believed, I might have taken inspiration from the dish of oatmeal sitting in front of me when it comes to Pluto. Because Melosh and grad student Alex Trowbridge led recent research that may explain what we see at Sputnik Planum. A bit of background before I return to that bowl of oatmeal. We've seen that Sputnik Planum has an unusual appearance, visible in the photo below, that shows patterned polygons. One way of explaining this is to invoke icebergs floating on a sea of nitrogen ice. Melosh and Trowbridge believe the polygons could be what are called Rayleigh-Bénard convection cells, which flag convection that occurs in a fluid that is being heated from below. Says Melosh: "Imagine...

Interesting news about Jupiter this morning even as the Juno spacecraft crosses into the realm of Jupiter's gravity. It was six days ago that Juno made the transition into Jupiter space, where the gravitational influence of Jupiter now dominates over all other celestial bodies. And it will be on July 4 of this year that Juno performs a 35-minute burn of its main engine, imparting a 542 meters per second mean change in velocity to the spacecraft for orbital insertion. The spacecraft's 37 flybys will close to within 5000 kilometers of the cloud tops. I only wish Poul Anderson could be alive to see some of the imagery. I always think of him in relation to Jupiter because of his stunning 1957 story "Call Me Joe," describing the exploration of the planet by remote-controlled life forms (available in Anderson's collection The Dark Between the Stars as well as various science fiction anthologies). Image: Launched in 2011, the Juno spacecraft will arrive at Jupiter in 2016 to study the giant...

Yesterday's look at organic compounds on Comet 67P/Churyumov-Gerasimenko needs to be augmented today by a just released study of the comet with implications for how all comets evolve. But first, a renewed pointer to the Kickstarter campaign for KIC 8462852, the unusual star whose light curves continue to baffle astronomers. Please consider contributing to the project, which would raise enough money ($100,000) to support a year of observations. We're about halfway through the campaign but not yet at the halfway point in funds. Have a look at the information provided on the Kickstarter page, or in my essay A Kickstarter Campaign for KIC 8462852, which also has the relevant links. We know the light curves of 'Tabby's Star' are not periodic, so we need continuous monitoring to gain more data on what may be happening there. If we can raise the funds, the Las Cumbres Observatory Global Telescope Network, already supporting the project, can give us the multi-wavelength observations we need....

The thought that water and organic molecules might have arrived on the early Earth from the impacts of comets and asteroids has long been provocative, and our missions to nearby comets are now paying off with insights into the possibility. It was back in 2004 that the Stardust mission flew past Comet Wild 2, collecting dust samples that showed traces of the amino acid glycine. Possible contamination of the samples during their analysis left the question open, however. Now we have news that the European Space Agency's Rosetta mission has also found glycine -- a significant organic compound that appears in proteins -- at Comet 67P/Churyumov-Gerasimenko. The spacecraft's ROSINA instrument (Rosetta Orbiter Spectrometer for Ion and Neutral Analysis) detected glycine in October of 2014, with later measurements taken during the August 2015 perihelion event, where cometary outgassing was at its peak. Kathrin Altwegg (University of Bern), who led the study, calls this "...the first...

Yesterday’s post on the dwarf planet 2007 OR10 brought comments asking why an object this large hasn’t yet been named. Actually it has been, but only briefly. It was Meg Schwamb, then a graduate student of Caltech’s Michael Brown, who discovered 2007 OR10, and Brown quickly gave it the nickname Snow White -- as the seventh dwarf Brown’s team had discovered, the name seemed made to order. What derailed the nickname was the realization that 2007 OR10 is not white but red, and as we saw yesterday, one of the darkest known Kuiper Belt objects. Schwamb herself was quoted in this JPL news release on the matter: “The names of Pluto-sized bodies each tell a story about the characteristics of their respective objects. In the past, we haven’t known enough about 2007 OR10 to give it a name that would do it justice. I think we’re coming to a point where we can give 2007 OR10 its rightful name.” We’ll see just what that rightful name is. Remember, too, that 2007 OR10 is now known to be just...

Although we always think of Kepler -- and its successor mission K2 -- as an exoplanet observatory, the spacecraft has also been put to work on objects much closer to home. Enter 2007 OR10, a dwarf planet that is currently about twice as distant from the Sun as Pluto. The Kepler instrument is, of course, fine-tuned for spotting the minute variations in light caused when a planet passes in front of a distant star. But that makes it an excellent tool for studying 2007 OR10, whose dim light and red color have proved difficult to parse by other instruments. Kepler, though, is not alone in this work. What we see is a useful collaboration between it and the European Space Agency's Herschel Space Observatory. Using archival data from the latter, researchers have been able to measure both the fraction of starlight absorbed and later re-radiated as heat (via Herschel) as well as the fraction of starlight reflected from 2007 OR10 via Kepler. K2, sensitive to minute changes in brightness, was...

David McComas (Princeton University) calls what his team of researchers have learned about the solar wind at Pluto 'astonishing,' adding "This is a type of interaction we've never seen before anywhere in our Solar System." The reference is to data from the Solar Wind Around Pluto (SWAP) instrument that flew aboard New Horizons. McComas knows the instrument inside out, having led its design and development at the Southwest Research Institute. Image: The first analysis of Pluto's interaction with the ubiquitous space plasma known as the solar wind found that Pluto has some unique and unexpected characteristics that are less like a comet and more like larger planets. Credit: NASA/Johns Hopkins University Applied Physics Laboratory/Southwest Research Institute. What startled McComas was that Pluto's interactions with the solar wind are nowhere near what had been predicted. This stream of charged particles flowing outbound from the Sun can reach speeds of 500 kilometers per second and...

Back when Cassini was approaching Saturn and we all anticipated the arrival of the Huygens payload on the surface, speculation grew that rather than finding a solid surface, Huygens might 'splash down' in a hydrocarbon sea. I can remember art to that effect in various Internet venues of the time. In the event, Huygens came down on hard terrain, but since then Cassini's continuing surveys have shown that seas and lakes do exist on the moon. Over 1.6 million square kilometers (about two percent of the surface of Titan) are covered in liquid. Image: Ligeia Mare, shown here in a false-colour image from the international Cassini mission, is the second largest known body of liquid on Saturn's moon Titan. It measures roughly 420 km x 350 km and its shorelines extend for over 3,000 km. It is filled with liquid methane. The mosaic shown here is composed from synthetic aperture radar images from flybys between February 2006 and April 2007. Credit: NASA/JPL-Caltech/ASI/Cornell. The liquid, of...

If Saturn’s inner moons are, as we discussed yesterday, as ‘young’ as the Cretaceous, then we have much to think about in terms of possible astrobiology there. But Titan is unaffected by the model put forward by Drs. ?uk, Dones and Nesvorný, being beyond the range of these complex interactions. Huge, possessed of fascinating weather patterns within a dense atmosphere, Titan probably dates back to Saturn’s earliest days, in some ways a frigid ‘early Earth’ analog. When my son Miles was a boy, we drove through the Appalachians on a journey that eventually took us into Canada. Somewhere in the Shenandoah Valley he commented on how insignificant the mountains seemed compared to what he was used to out west, where the Rockies dominate the sky. True enough, but of course the Smokies and the Cumberlands have their own tale to tell. Once monumental, they’ve fallen prey to wind and rain, ancient relics of once grander peaks. The latest work on Titan from Cassini data now reveals something...

Some years back at a Princeton conference I had the pleasure of hearing Richard Gott discussing the age of Saturn’s rings. Gott is the author of, in addition to much else, Time Travel in Einstein's Universe (Houghton Mifflin, 2001). I admit the question of Saturn's rings had never occurred to me, my assumption being that the rings formed not long after the formation of the planet. But of course there is no reason why this should be, and a number of reasons why it should not. How long, for instance, does it take moons to collide with each other, contributing debris to a growing ring system? And are such collisions the only way a ring system can form? With all this in mind, I was interested in a new paper that a number of readers referenced in emails. Lead author Matija ?uk (SETI Institute), working with Luke Dones and David Nesvorný (both at SwRI), offers up the possibility that the inner moons of Saturn and possibly the rings were actually formed much later than we would expect. In...

Garrett P. Serviss was a writer whose name has been obscured by time, but in his day, which would be the late 19th and early 20th Century, he was esteemed as a popularizer of astronomy. He began with the New York Sun but went on to write fifteen books, eight of which focused on the field. He was also a science fiction author whose Edison's Conquest of Mars (1898) used Wellsian ideas right out of War of the Worlds. It was a sequel to an earlier story, involving master inventor Thomas Edison in combat against the Martians both on the Martian surface and off it. I think this is the first appearance of spacesuits in fiction. In any case, Serviss anticipates the 'space opera' to come, and will always have a place in the history of science fiction. I can only wonder what he would have made of the Dawn mission at Ceres. In Edison's Conquest of Mars, he refers to a race of 'Cerenites' who are, because of the low gravity of their world, about forty feet tall. They are at war with the...

I will admit to a fascination with Pluto's moon Charon that began even before it was discovered. Intrigued by the most distant places in the Solar System, I had always imagined what the view would be like from a tiny moon circling Pluto. At the time, we didn't know about Charon, so my vantage point was more like what we now know Kerberos or Styx to be. Then my interest tripled when the sheer size of Charon became known. A large moon was truly a world of its own, and Charon rose in my estimation to rival my other most intriguing moon, Neptune's Triton. Now we have word that Charon may once have had an internal ocean, still further evidence of the intricacy of objects in or near the Kuiper Belt. In Charon's case, something intriguing is shown by a study of the surface, one side of which New Horizons saw during the July 2015 flyby. What appears to be a series of tectonic faults that show up in the form of ridges, scarps and valleys reveals a surface that has to have been stretched over...

Landing on a small object in the Solar System isn't easy. Witness the Philae lander, which traveled to Comet 67P/Churyumov-Gerasimenko as part of the European Space Agency's Rosetta mission. Philae 'landed' on November 12, 2014, having to deal with a malfunctioning thruster along the way. Upon arrival at the surface of the comet, Philae was to have fired anchoring harpoons to steady itself on the surface, but after a dramatic seven-hour descent, the harpoons failed to fire. Thus the lander did touch down at the initial landing site, called Agilkia, but then bounced to a new site -- Abydos -- about a kilometer away. Even now, we're not sure just where Philae is despite imagery from the orbiting Rosetta. What ESA has told us, however, is that the lander evidently made contact with the comet four times during an unplanned for two-hour additional flight across the surface. During the process it grazed the rim of a depression called Hatmehit on its way to its resting place at Abydos....

Knowing what comets are made of -- dust and ice -- only begins to answer the mystery of what is inside them. A compact object with this composition should be heavier than water, but we know that many comets have densities much lower than that of water ice. The implication is that comets are porous, but what we'd still like to know is whether this porosity is the result of empty spaces inside the comet or an overall, homogeneous low-density structure. For answers, we turn to the European Space Agency's continuing Rosetta mission. In a new paper in Nature, Martin Pätzold (Rheinische Institut für Umweltforschung an der Universität zu Köln, Germany) and team have gone to work on the porosity question by analyzing Comet 67P/Churyumov-Gerasimenko, around which Rosetta travels. It's no surprise to find that 67P/Churyumov-Gerasimenko is a low-density object, but an examination of the comet's gravitational field shows that we can now rule out a cavernous interior. Image: These images of comet...

If there's one thing Pluto turned out to have beyond all expectation, it's geological activity. New Horizons is now showing us what researchers are calling 'hills of water ice' floating in a sea of frozen nitrogen, much like icebergs moving through our own Arctic Ocean. The isolated hills are thought to be fragments of the water ice in the surrounding upland regions. Measuring several kilometers across, they are found in Sputnik Planum, a plain within Pluto's 'heart.' Image: The image shows the inset in context next to a larger view that covers most of Pluto's encounter hemisphere. The inset was obtained by New Horizons' Multispectral Visible Imaging Camera (MVIC) instrument. North is up; illumination is from the top-left of the image. The image resolution is about 320 meters per pixel. The image measures a little over 500 kilometers long and about 340 kilometers wide. It was obtained at a range of approximately 16,000 kilometers from Pluto, about 12 minutes before New Horizons'...