"The famous Ice Tower Ridge atop Mt Erebus, an active volcano in Antarctica, serve as the model for this image of Enceladus, Saturn’s ice-volcano moon. The artist camped on Mount Erebus over Christmas of 2016 with NASA volcanologist Rosaly Lopes. They were on an NSF expedition to study the formations on Erebus as planetary analogs. The ice towers, some as high as a five-story structure, grow over volcanic vents, gradually building as layers of ice develop, expanding like stalagmites into the frigid sky.
In the painting, the view illustrates the recently proposed concept that some ancient eruptive Tiger Stripes of Enceladus have migrated further north, toward the equator. These long-dead geyser sites may have been carried northward by the decoupled (floating) crust of the tiny ice moon, bringing Saturn higher in the sky than it appears at today’s eruptive vents."
"From the south pole of the frozen surface of Enceladus, enormous, effervescent jets of icy brine spew volumes of vapor and ice particles at high speeds. Some of the material is jettisoned into space where it is snared by Saturn's gravity, wherein Saturn's hazy E ring is created. The organic-rich compounds that make up this salty spray marks Enceladus as a potential habitable zone candidate.
Scientists theorize the jets originate deep below the moon's thick ice cap in a warm subsurface ocean and find their pressurized escape from vents along the "Tiger Stripe" trenches, nicknamed as such due to their distinct striping across the moons ever-changing southern terrain.
I've been held spellbound by Enceladus since first viewing Cassini's stunning images of it's sunlit jets and desolate landscapes. With considerate input by Dr. Carolyn Porco, I was able to better understand how to render the exciting dynamics taking place on Saturn's tiny companion."
"I was inspired to paint this after imagining what an earth analog for the ice geysers on Enceladus would be. I started by looking at ice geysers associated with geothermal activity and quickly realized that the low gravity and lack of atmosphere on Saturn's moon would drastically change how these would develop over time. I visualized a kind of a ice geyser similar to the "Black Smokers" that can be found at the bottom of earths ocean, where ice builds up over time as it freezes while being ejected from the subsurface ocean.
I took care to get Saturn correctly sized in the distance. From the surface of Enceladus Saturn would appear as 23 degrees across and the rings would extend out about 70 degrees. I did however use some artistic license with the ring inclination, as I wanted to show a bit more detail than the 0.019 would allow. In addition I adjusted the lighting a bit brighter as in reality it would be about 90 times darker in broad daylight there than on Earth.
For the floor of the "Tiger Stripe" I envisioned a very new surface with a few boulders and lots of snow. Carolyn Porco suggested that there would be boulders on the canyon floors, but roughly 90% of the erupted stuff returns to the surface as "snow". The total predicted volume of material in the jets is approximately 50 kilograms (110 lbs) per second, over time this could cause quite an accumulation on the surface. I also included a faint E and a backlit G ring around Saturn. The Ice walls are purely hypothetical and certainly motivated by an aesthetic point of view."
"I’ve always been fascinated and inspired by planetary exploration. Producing artist’s impressions of solar system bodies like Enceladus or Titan allows me to fuel my reflections or the imagination. I try to use, as much as possible, science data to generate my artist’s renderings.
This image reveals an artist’s impression of Baghdad Sulcus, one of the Tiger Stripes found in the south pole of Enceladus. The geysers identified in the south polar region are closely related to these Tiger Stripes. From the surface of Enceladus, the apparent diameter of Saturn is about 29 degrees which is roughly 58 times higher than the apparent diameter of the Moon (about 0.5 degrees) for an observer located on Earth.
The artist’s impression of Enceladus has been generated on the basis of a mosaic of Enceladus obtained from the Cassini probe on November 21, 2009 with high resolution data from the ISS (Imaging Science Subsystem) and the CIRS (Composite Infrared Spectrometer). The artist’s rendering was produced via the “Shape From Shading” technique. Saturn appears on the horizon such as it would appear on a photo taken by an observer on Enceladus with a typical camera or smartphone with a lateral field of view of 57 degrees."
"The geysers of Enceladus are seen here up close. They are believed to be caused by Saturn's gravitational pull and the tidal flexure of Enceladus that results from it. This is enough to melt water inside Enceladus. Pressure in the liquid water chambers ejects fine water droplets to form the geysers found in the southern hemisphere, in an area known as "The South Polar Terrain." A small fraction of the ejected ice crystals is captured by Saturn's gravity and forms its E ring.
Enceladus is one of only two moons in the solar system where geysers have directly been detected.
From the surface of Enceladus, Saturn appears more than 50 times larger on the sky than our full moon does from Earth. In this illustration, along with some moons, the rings are visible as a line cutting through the center of Saturn."
"I do these pictures of Enceladus simply because the little moon fascinates me. I might mention (while throwing modesty to the winds) that I included an illustration of a cryogeyser on Enceladus in my book "Saturn" (Lerner Publishing Co.), which was published in 2003."
"The image shows a viewpoint from within one of the tiger stripe fractures just as Enceladus is coming out of Saturn eclipse. Sunlight reddened by its passage through Saturn's atmosphere illuminates a fractured, glittering ice crystal-covered landscape, revealing two ghostly, active plumes -- the 'breath' of Enceladus."
"Enceladus, one of Saturn's many icy moons, is now known to possess underground reservoirs of liquid water which sometimes erupt to the surface in the form of great jets or geysers. These keep the moon's surface sparkling white, and even add material to Saturn's rings."
"Astronomical art, on a human scale, must often rely on images and non-visual data obtained at great distances. Enceladus is no exception. While we have seen spectacular detail in Cassini's close encounters, the view experienced from the surface must involve an educated leap of faith.
The painting uses the average human field of view, which is a bit less than 40 degrees. I began this digital painting by combining seven grayscale images from Cassini of Saturn itself. I then drew a topographic map of a section of the Tiger Stripes, relying as heavily as possible on Cassini images, but going beyond them for the kind of resolution I wanted in my landscape."
"We all know what water geysers look like on Earth, but what would one look like in world where there is no atmosphere to speak of, surface temperature is -330° F, and the escape velocity is only 870 km/hr. I imagined a geyser that was more a diaphanous aurora of ice crystals than a spray of water. In my rendering, some of the crystals have repeatedly combined to form snow heavy enough to fall back to the surface, while smaller crystals head off into space. Irregular sprays, varying velocities, and perhaps even electrostatic forces, contribute to the geyser's chaotic appearance. Saturn itself appears low on the horizon due to the proximity to Enceladus' south pole, and the small white dot immediately to Saturn's left is the icy moon Mimas."
"If you are standing at the south pole of Enceladus, which is in the ring plane, the rings have to appear not only edge on, but parallel to the horizon. The angular width of this image is 50 degrees, about what comes from a standard lens on a camera. The venting would appear variable; the gas component is giving some bluish scattering, although there are some whiter ice particles and warmer toned organic dust in the plume.
For the surface, I wanted to show a scene near one of the fractures, and I visualized that in at least some places along fractures we might see shattered ice squeeze-ups, where faulting had jostled "plates" of ice against each other. I visualized some blue color showing up as sunlight passed through some of the cleaner ice slabs, as seen in glacial ice on Earth. I also indicated some coloration of the icy gravel by organics in the foreground and along the fracture at right, but the clean white ice of Enceladus, with some of the highest albedos in the solar system, can be seen in the distance."
"While the surface of Enceladus is reported to be as brilliant as snow in full sun, it would probably appear leaden about an hour before sunrise with a crescent Saturn as the only source of illumination. Subtending an angle of 29° in Enceladus' sky (the same width as 58 Earth moons lined up side-by-side in Earth's sky) Saturn would be a stunning panorama.
This image also illustrates a phenomenon only recently discovered by NASA's Cassini probe: sunlight reflecting off of Saturn's rings casts a faint glow onto the cloud tops of Saturn's night side. The illumination is about the same as three of Earth's full moon combined."