Given that we have four planets in our Solar System with rings, it's a natural thought that if so-called Planet Nine does exist, it might likewise show a system of rings. After all, Caltech's Konstantin Batygin and Mike Brown are talking about a planet with a mass on the order of ten times that of the Earth. Neptune is about 17 Earth masses, while Uranus is 14.5 as massive. If Planet Nine is an ejected ice giant, perhaps it joins Uranus, Neptune, Jupiter and Saturn in having a ring system of its own, along with a thick atmosphere of hydrogen and helium. Of course, we have to discover Planet Nine first, a process that may take some time if, indeed, it is successful. Meanwhile, we have interesting developments in the Solar System's most intriguing ring system. As compared with those of other planets, Saturn's rings are visually stunning. The B ring is the brightest and most opaque of the planet's rings, but now we're finding out that brightness and opacity have little correlation with...

Newly interpreted data from the New Horizons spacecraft tells us that Pluto has more water ice on its surface than we once thought. The image below tells the tale, a false-color view derived from observations by the Ralph/Linear Etalon Imaging Spectral Array (LEISA) instrument. Here we're at infrared wavelengths and can see areas showing the spectral signature of water ice. Note the sharp contrast between the left and right sides of the image below. Image: This false-color image is derived from observations in infrared light by the Ralph/Linear Etalon Imaging Spectral Array (LEISA) instrument. It is based on two LEISA scans of Pluto obtained on July 14, 2015, from a range of about 108,000 kilometers. Credit: NASA/Johns Hopkins University Applied Physics Laboratory/Southwest Research Institute. The two scans, as this JHU/APL news release explains, were taken about fifteen minutes apart and merged into a 'data cube' -- a three-dimensional array covering the hemisphere New Horizons...

In the past few years, several readers have talked to me about changes to the comment format on Centauri Dreams. In particular, some way of setting up comment 'threads' seemed to make sense, and there are various plugins to make this happen. Thanks to all for their input, and in particular Michael Spencer and Daniel Suggs, the latter of whom suggested I check with Judith Curry, who runs the Climate Etc site. A few tweaks with the aid of Dr. Curry and it was done. The new format became available as of last night and I hope the 'reply' function proves useful. On to the Ninth Planet What stirred me about yesterday's story on a possible ninth planet was the involvement of Caltech's Mike Brown, whose general disbelief in any large outer system planet was known. But as Brown tweeted yesterday, he's now a believer in a nine-planet system (the reference being to Pluto, the planetary status of which was demoted not long after Brown's discovery of Eris). If Brown were involved, this promised...

A new planet ten times the mass of Earth deep in the outer system? That's the word out of Caltech, where Konstantin Batygin and Mike Brown report the evidence from computer modeling and simulations, though no planet has yet been directly observed. The planet would orbit 20 times further from the Sun than Neptune, with an orbital period between 10,000 and 20,000 years. "This would be a real ninth planet," says Brown. "There have only been two true planets discovered since ancient times, and this would be a third. It's a pretty substantial chunk of our solar system that's still out there to be found, which is pretty exciting." Image: This artistic rendering shows the distant view from Planet Nine back towards the sun. The planet is thought to be gaseous, similar to Uranus and Neptune. Hypothetical lightning lights up the night side. Credit: Caltech/R. Hurt (IPAC). From what we know so far, the planet would explain features in the Kuiper Belt, including the fact that from a list of...

The new images just in from Dawn at Ceres unexpectedly evoke a much earlier mission, the Apollo 10 precursor to the lunar landing. This was the second manned mission to orbit the Moon, one that saw the lunar module drop to just over 15 kilometers from the surface in a rehearsal for the Apollo 11 landing. Just for fun, I've been looking through the Apollo 10 transcripts for day 5, when the LM ('Snoopy') had already separated from the command module. John Young was in the command module as Gene Cernan and Tom Stafford put Snoopy through its paces. Nobody had ever been this close to the Moon before. You probably remember or else have read about Snoopy's descent toward the lunar peaks: 100:25:43 Young: ...at 6 miles, he was doing 65 feet a second (20 m/s) on my - 6 miles (9.6 km) from me, he was doing 65 feet per second (20 m/s). At 3.8 miles (6.1 km) he was doing 73 feet per second (22 m/s). I think that confirms this burn. They are down there among the rocks… As Cernan quickly...

It's the end of an era. On Saturday December 19, the Cassini Saturn orbiter will make its final close pass by Enceladus. This doesn't mark the end of Cassini itself, which still has work to do especially with regard to Titan, but it does mean the end, at least for now, of our close-up study of a remarkable phenomenon: The plumes of Enceladus, which Cassini itself discovered. We've gained priceless data through its flybys, helping us make the case for an internal ocean. Cassini will continue to observe Enceladus until mission's end, but only from much greater distances. In fact, as this JPL news release explains, the closest Cassini will come to Enceladus after Saturday is about four times the distance of the upcoming flyby. Nor will the Saturday event be as close a pass as Cassini's dive through the south polar plume on October 28. That one took the spacecraft within a scant 49 kilometers of the surface, returning data that is still undergoing analysis as we probe the plume's...

The Dawn spacecraft has reached its final orbital altitude, closing to within 385 kilometers of the asteroid (and yes, I really should start calling Ceres a 'dwarf planet' consistently -- working on it). We have no observations from this distance yet, but that process begins within days, and should give us images with a resolution of 35 meters per pixel, along with a wealth of data from the craft's scientific package. Like New Horizons, Dawn makes history every time it returns observations of places we haven't seen before, or surface features we're seeing at higher resolution as the orbit lowers. Unlike New Horizons, Dawn is an orbiter, which makes me long for the idea of a Pluto orbiter, even though New Horizons has amply demonstrated how useful and powerful a flyby mission can be. An orbiter lets you complete the mapping process so essential to making a new world tangible, while there are parts of Pluto that our flyby couldn't make out at highest resolution. I found the...

Two papers have appeared on the arXiv server suggesting hitherto undiscovered objects in the outer Solar System (thanks to Centauri Dreams reader Stevo Darkly for the pointer). Both papers use data harvested by the Atacama Large millimeter/submillimeter array (ALMA), an interferometer of radio telescopes in Chile’s northern high desert. Here some 66 12-meter and 7-meter radio telescopes work the sky at millimeter and submillimeter wavelengths, with targets that have ranged from galactic dust in the early universe to magnetic fields near a supermassive black hole. ALMA’s uses closer to home are made clear in the new papers, which demonstrate that this array can be a major tool in helping us probe the outer system well into the Oort Cloud. In the first paper, the researchers draw on three periods of observation with ALMA to detect point-like emissions at different positions in two of the periods. The two emissions are thought to be the same source, considering what the authors call...

I finally have a landscape to attach to Larry Niven's classic "Wait It Out," a tale of shipwreck on Pluto. The New Horizons imagery is giving us resolutions of 77-85 meters per pixel, so that we can, as this JHU/APL news release reminds us, see features less than half the size of a city block. The one below is the one that has me captivated because it reminds me of the Niven tale, in which a team of astronauts becomes stranded on Pluto's surface, and the protagonist deliberately exposes himself to the vacuum to place himself into cryogenic storage. A man can stay conscious for tens of seconds in vacuum. If I moved fast, I could get out of my suit in that time. Without that insulation to protect me, Pluto's black night would suck warmth from my body in seconds. At 50° Absolute, I'd stay in frozen storage until one version or another of the Day of Resurrection. And then this: A superconductor is what I am. Sunlight raises the temperature too high, switching me off like a damned...

Before we go interstellar, a digression with reference to yesterday's post, which looked at how we manipulate image data to draw out the maximum amount of information. I had mentioned the image widely regarded as the first photograph, Joseph Nicéphore Niépce's 'View from the Window at Le Gras.' Centauri Dreams regular William Alschuler pointed out that this image is in fact a classic example of what I'm talking about. For without serious manipulation, it's impossible to make out what you're seeing. Have a look at the original and compare it to the image in yesterday's post, which has been processed to reveal the underlying scene. Image: New official image of the first photograph in 2003, minus any manual retouching. Joseph Nicéphore Niépce's View from the Window at Le Gras. c. 1826. Gernsheim Collection Harry Ransom Center / University of Texas at Austin. Photo by J. Paul Getty Museum. And here again is the processed image, a much richer experience. The...

As I did after yesterday's post, I occasionally get requests for pictures of objects in natural color, as opposed to significantly enhanced images (at various wavelengths) designed to tease out structure or detail. Here are Pluto and Charon as seen by New Horizons' LORRI (Long Range Reconnaissance Imager), with color data supplied by the Ralph instrument. The images in this composite are from July 13 and 14 and according to JHU/APL, "...portray Pluto and Charon as an observer riding on the spacecraft would see them." For those interested, Jenna Garrett wrote a fine piece for WiReD last summer called What We're Really Looking at When We Look at Pluto that goes into the instrumentation aboard New Horizons and discusses the philosophical issues separating what we see from what is really there. Let me quote briefly from this: It's not hard for a photographer to understand why you'd question actually seeing Pluto—the same question has nagged photographers since Nicéphore...

Keeping up with a site like this can be a daunting task, especially when intriguing papers can pop up at any time and announcements of new finds by our spacecraft come in clusters. But site maintenance itself can be tricky. Recently Centauri Dreams regular Tom Mazanec wrote in with a project to be added to the links on the home page and before long, with my encouragement, he had sent a number of solid suggestions on exoplanet projects both Earth- and space-based, most of which have now been added. My thanks to Tom and all those who have at various times caught a broken link or added a suggestion for new links or stories. We begin the week looking at work discussed at the Division for Planetary Sciences meeting in Maryland, starting with the continuing bounty coming in from New Horizons. I always like to quote Alan Stern, because as principal investigator for New Horizons, he is not only its chief spokesman but the guiding force that saw this mission become a reality. And I think he's...

Back in the days when Clyde Tombaugh was using a blink comparator to search for 'Planet X,' finding a new object in the outer Solar System was highly unusual. Uranus had been found in 1781, Neptune in 1846, and I suppose I should add Ceres in 1801, although it's a good deal closer than the other two. The real point is that the Solar System seemed straightforward in Clyde Tombaugh's day. There were eight planets and an asteroid belt. It wouldn't be until 1943 that Kenneth Edgeworth argued that the outer system might have 'a very large number of comparatively small bodies,' with Gerard Kuiper publishing his own speculations in 1951. Estonian astronomer Ernst Öpik first described what we now know as the Oort Cloud in 1932, with Jan Oort, a Dutch astronomer, reviving the idea in 1950. The Oort Cloud was a way to explain why comets behave the way they do. Oort believed that there must be a cometary 'reservoir' far away from the Sun -- he chose 20,000 AU as a likely range because of the...

Another surprise from New Horizons, in a year which will surely see a few more before it ends. After all, we have a long flow of data ahead as the spacecraft continues to return the information it gathered during the July flyby of Pluto/Charon. Now we focus on Charon and the crater being called Organa, which produced an anomaly when scientists studied the highest resolution infrared compositional scan of the moon available. This crater and some of the surrounding materials show infrared absorption at about 2.2 microns, indicating frozen ammonia. Not far away on Charon's Pluto-facing hemisphere is Skywalker crater, which under infrared scrutiny shows the same composition as the rest of Charon's surface. Here water ice -- not ammonia -- dominates. As this JHU/APL news release notes, ammonia absorption was first detected on Charon as far back as 2000, but what we're seeing here is unusually concentrated. In any case, why is Organa so different from Skywalker and the rest of Charon's...

No one interested in the prospects for life on other worlds should take his or her eyes off Europa for long. We know that its icy surface is geologically active, and that beneath it is a global ocean. While water ice is prominent on the surface, the terrain is also marked by materials produced by impacts or by irradiation. Keep in mind the presence of Io, which ejects material like ionized sulfur and oxygen that, having been swept up in Jupiter’s magnetosphere, eventually reaches Europa. Irradiation can break molecular bonds to produce sulfur dioxide, oxygen and sulfuric acid. And we're learning that local materials can be revealed by geology. A case in point is a new paper that looks at infrared data obtained with the adaptive optics system at the Keck Observatory. The work of Mike Brown, Kevin Hand and Patrick Fischer (all at Caltech, where Fischer is a graduate student), suggests that the best place to look for compounds indicative of life would be in the jumbled areas of Europa...

We now pivot from Dysonian SETI to the ongoing exploration of our own system, where lately there have been few dull moments. Today the Cassini Saturn orbiter will make its deepest dive ever into the plume of ice, water vapor and organic molecules streaming out of four major fractures (the 'Tiger Stripes') at Enceladus' south polar region. The plume is thought to come from the ocean beneath the moon's surface ice, and while Cassini is not able to detect life, it is able to study molecular hydrogen levels and more massive molecules including organics. Understanding the hydrothermal activity taking place on Enceladus helps us explore the possible habitability of the ocean for simple forms of life. Image: This artist's rendering showing a cutaway view into the interior of Saturn's moon Enceladus. NASA's Cassini spacecraft discovered the moon has a global ocean and likely hydrothermal activity. A plume of ice particles, water vapor and organic molecules sprays from fractures in the moon's...

Back in 2011, a four planet system called Kepler-223 made a bit of a splash. Researchers led by Jack Lissauer (NASA Ames) at first believed they were looking at two planets that shared the same orbit around their star, each circling the primary in 9.8 days. These co-orbital planets were believed to be in resonance with the other two planets in the system. If the finding were confirmed, it would indicate that one planet had found a stable orbit in a Lagrange point -- the L4 and L5 Lagrange points lie 60° ahead and behind an orbiting body. We call an object sharing an orbit like this a trojan, as shown in the figure below, which depicts the best known trojans in our system, the asteroids associated with Jupiter. Image: Jupiter's extensive trojan asteroids, divided into 'Trojans' and 'Greeks' in a nod to Homer, but all trojans nonetheless. Credit: "InnerSolarSystem-en" by Mdf at English Wikipedia - Transferred from en.wikipedia to Commons. Licensed under Public Domain via...

Kepler-47 is an eclipsing binary some 4900 light years from Earth in the direction of the constellation Cygnus. It's a system containing two transiting circumbinary planets, meaning the planets orbit around the binary pair rather than around one or the other star. That configuration caught the eye of Simon Porter, a postdoc at the Southwest Research Institute, because the configuration is so similar to another circumbinary system, the one involving four small moons around Pluto/Charon. In both cases, we have a binary at the center of the orbit. Porter writes about the configuration in this post from the New Horizons team. In the case of Pluto, the binary could be considered a binary planet, with Charon the other half of the duo. Both are orbited by a system of four moons, each of them less than 50 kilometers in diameter, the moons orbiting around the system's center of mass. New Horizons, the gift that keeps on giving, has already sent some striking images of these small moons, but...

Imagine what you could do with a comet at your disposal. In Seveneves, Neal Stephenson's new novel (William Morrow, 2015), a Musk-like character named Sean Probst decides to go after Comet Grigg-Skjellerup. A lunar catastrophe has doomed planet Earth and humanity is in a frantic rush to figure out how to save at least a fraction of the population by living off-world. Probst understands that a comet would be a priceless acquisition: "You can't make rocket fuel out of nickel. But with water we can make hydrogen peroxide -- a fine thruster propellant -- or we can split it into hydrogen and oxygen to run big engines…. We have to act immediately on long-lead-time work that addresses what we do know. And what we know is that we need to bring water to the Cloud Ark. Physics and politics conspire to make it difficult to bring it up from the ground. Fortunately, I own an asteroid mining company…" And so on. Lest you think that was a spoiler, be advised that it's just the tip of...

I have never been exactly indignant about the demotion of Pluto to 'dwarf planet' status but I do think it's curious and in at least one respect too arbitrary for my taste. I'll buy the idea that a planet needs to be round because of its own gravity, and I'll sign off on the notion that to be a planet, an object has to be in orbit around the Sun (even though we do have apparent wandering planets in the interstellar deep, far from any star). But the International Astronomical Union also decided in its 2006 deliberations that a planet has to 'clear' its neighborhood of debris, thus sweeping out its orbit over time. That one, of course, is controversial. Assuming the Earth is a planet, why are we worried about things like Near Earth Asteroids (NEAs)? Our planet clearly hasn't swept out its neighborhood, not when we can number problematic asteroids in the thousands. Jupiter is estimated to have about 100,000 trojan asteroids in its orbital path as well, and Alan Stern, principal...