20-22 Jan 2022. Saturn Series; THE SATURN SYSTEM: THROUGH THE EYES OF CASSINI. This is the text extracted from the NASA publication detailing the Cassini mission to Saturn. For use with the video by the name.
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TABLE OF CONTENTS
Foreword
Saturn:
Crown Jewel of the Solar System
Rings: Ice Particles, Moonlets, and Gravity
Titan: A Moon Obscured
Enceladus: The Rarest of Pearls
Other Moons: A Menagerie of Icy Worlds
Afterword
Appendix I: The Mission
Appendix II: Scientific Instruments
THE SATURN SYSTEM THROUGH THE EYES OF CASSINI
This book was developed collaboratively by the National Aeronautics and Space Administration (NASA) including NASA’s Planetary Science Division (PSD), NASA’s Jet Propulsion Laboratory (JPL), and the Lunar and Planetary Institute (LPI), operated for NASA by Universities Space Research Association.
ON THE COVER: Nested Rings
Saturn's northern hemisphere is seen here against its nested rings. This view from the Cassini spacecraft looks toward the unilluminated side of the rings from about 30 degrees above the ring plane. The rings have been brightened relative to the planet to enhance visibility. Images taken using red, green, and blue spectral filters were combined to create this natural-color view. Cassini captured these images on February 24, 2009, at approximately 538,000 miles (866,000 kilometers) from Saturn. Image Credit: NASA/JPL-Caltech/Space Science Institute
Published 2017 For complete media usage guidelines, please visit https://www.nasa.gov/multimedia/guidelines
This publication is available as a free download at https://www.nasa.gov/ebooks
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More FOREWORD BY JAMES GREEN
than 400 years ago, Galileo Galilei trained his homemade telescope on the night sky and observed that Saturn had two objects closely related to the planet extending on either side. At DIRECTOR, the time, in 1610, Galileo declared them to be moons.
NASA PLANETARY SCIENCE DIVISION
A few decades later, Saturn moon science accelerated at a
JULY 2017
dizzying pace. Christiaan Huygens first observed Saturn’s largest moon Titan in 1655 and was the first to describe the extended “moon-like” features at Saturn as a disk of material surrounding the planet. From 1671 to 1674, Giovanni Cassini discovered the moons Iapetus, Rhea, Dione and Tethys. In 1675, Cassini discovered the gap in Saturn’s rings that we now know as the “Cassini Division.”
In the space age, before the Cassini-Huygens mission, we had only hints of the discoveries awaiting us at Saturn. Pioneer 11 and Voyagers 1 and 2 conducted flybys decades ago. But these quick encounters didn’t allow time for more extensive research. NASA and the European Space Agency created a partnership to orbit a Saturn orbiter (Cassini) and a lander (Huygens) on Titan. Like its namesakes, the Cassini-Huygens mission not only discovered previously unknown moons, but it also helped us understand the science behind their formation, their interactions with the rings, and how truly diverse they are.
The Cassini-Huygens mission revolutionized what we know about the Saturn system. The rings of Saturn, the moons, and the planet itself offer irresistible and inexhaustible subjects for intense study, and Cassini-Huygens did not disappoint. The Saturnian system proved to be a rich ground for science exploration and discoveries, and Cassini has been nothing short of a discovery machine.
At the time Cassini plunged into Saturn at the end of its mission, it had observed the planet for a little less than half of a Saturn year. Cassini orbited the gas giant 294 times, traveling 4.9 billion miles and collecting 635 gigabytes (GB) of science data, forever changing our knowledge of the Saturn system and yielding tremendous insight for understanding the entire Solar System.
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Cassini’s observations have given us new views of the planet that provided a plethora of iconic images. The mission has made groundbreaking discoveries in our relentless search for life in the Solar System — whether revealing that Titan is going through similar cycles as Earth before life evolved, or spying icy plumes on Enceladus. In addition, Cassini’s 13-year mission made it possible to watch changes in Saturn’s dynamic ring system and observe what may be one of the most active, chaotic rings in our solar system — Saturn’s F ring. The spacecraft discovered propeller-like formations in the rings, witnessing the possible birth of a new moon.
Since its arrival in 2004, Cassini-Huygens has astounded us with data and images never before obtained with such detail and clarity. This book is the tip of a planet-sized iceberg. Over the last 13 years, Cassini has taken about 450,000 spectacular images within the Saturn system. How can we pare down this number to just a few when each snapshot, each image, tells a new story? The sheer beauty of these pictures is surpassed only by the science and discoveries they represent. Cassini taught us that Saturn is a far cry from a tranquil lone planet with delicate rings. Now, we know more about Saturn’s chaotic, active, and powerful rings, and the storms that rage beneath. Some of the Titan and Enceladus images hint at the possibility of life never before suspected. And how could we forget those exciting first looks at the moons we never knew existed?
A snapshot of some of the impressive numbers Cassini amassed during its 20-year mission.
Each of the images in this book is representative of so many more, and reflects both astounding beauty and the new science that Cassini- Huygens pioneered. Most of these images come from the hard work of the Imaging Science Subsystem Team, which provided special processing. I would like to thank them personally and all the other Cassini team members for a job well done.
So, congratulations Cassini, for forging our path. This book is the first chapter of what I predict will be the greatest story ever told: how humans reached for the stars and discovered life beyond Earth. I am honored to be part of it.
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1SATURN: CROWN JEWEL OF THE SOLAR SYSTEM
In the 400 years since humans began studying the cosmos with telescopes, Saturn has been transformed from a faint and blurry spot in the sky to a colossal planet in sharp focus. Yet, it seems that the clearer we see Saturn, the more enigmas we find.
Saturn is 763 times the volume of Earth with a primarily hydrogen and helium atmosphere that’s like a wild, churning cauldron. “Most of the weather on Saturn is erratic,” said Andrew Ingersoll, a member of the Cassini imaging team and an atmospheric physicist at Caltech. “A year will go by with no thunderstorms at all, but every 20 to 30 years you get a giant storm flashing with lightning every tenth of a second.” Cassini watched that mega-storm erupt in 2010, sending atmospheric disturbances all the way around the planet until the storm began running into its own wake, appearing to eat its own tail before it faded and disappeared.
Not all of Saturn’s characteristics come and go, though. “Some features are surprisingly long- lived,” Ingersoll said. “Cassini observed Saturn’s north polar hexagon, discovered in 1981 by Voyager, and it’s big enough to contain two Earths. And each pole sports a hurricane-like ‘eye’ that has been around for a decade or more. These are special properties, unique to Saturn, and they are showing us how extreme the weather can be.”
Further, scientists don’t know with precision how long it takes for Saturn to complete a single rotation on its axis (i.e., the length of a Saturn day), or why the planet’s magnetic poles are aligned with the axis of rotation — the only planet known to have such an alignment. The size of Saturn’s core and the planet’s internal structure are also practically unknown.
Cassini’s 13 years in Saturn orbit were the first opportunity to study this turbulent planet up close for years on end, and the spacecraft revealed new insights into Saturn’s puzzles. Though a Saturn year lasts nearly 30 Earth years, Cassini orbited for at least part of three Saturnian seasons, during which the planet changed and so did our knowledge of this giant world. As a result of Cassini’s years of close study of Saturn, we now have countless images and other data about this surreal planet and its accompanying rings and moons.
These images serve merely as a collective portrait or snapshot of Saturn, but this ever- changing world will always offer more to see.
Chapter Title Image: Ringworld Waiting
Saturn's peaceful beauty invites the Cassini spacecraft for a closer look in this natural-color view, taken during the spacecraft's approach to the planet. By this point in the approach sequence, Saturn was large enough that two narrow-angle camera images were required to capture an end-to-end view of the planet, its delicate rings, and several of its icy moons. The composite is made entirely from these two images. Moons visible in this mosaic: Epimetheus (72 miles, 116 kilometers across), Pandora (52 miles, 84 kilometers across), and Mimas (247 miles, 398 kilometers across) at left of Saturn; Prometheus (63 miles, 102 kilometers across), Janus (113 miles, 181 kilometers across), and Enceladus (310 miles, 499 kilometers across) at right of Saturn. Image Credit: NASA/JPL-Caltech/Space Science Institute
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This WAVES AND SHEAR
remarkably detailed view of Saturn's clouds reveals waves at the northern boundary of the bright equatorial zone, presumably associated both with the strong wind shear there and also the difference in density across the boundary with the band to the north. To the south, two dark ovals embrace, while dark ring shadows blanket the north. The moon Janus (113 miles, 181 kilometers across) occupies a mere two pixels beneath the rings, at right of center. Cassini captured this image on March 16, 2006, approximately 1.3 million miles (2 million kilometers) from Saturn. Image Credit: NASA/JPL-Caltech/Space Science Institute
7 NESTED RINGS
Saturn's northern hemisphere is seen here against its nested rings. This view from the Cassini spacecraft looks toward the unilluminated side of the rings from about 30 degrees above the ring plane. The rings have been brightened relative to the planet to enhance visibility. Images taken using red, green, and blue spectral filters were combined to create this natural-color view. Cassini captured these images on February 24, 2009, at approximately 538,000 miles (866,000 kilometers) from Saturn. Image Credit: NASA/JPL-Caltech/Space Science Institute
8 SUN-STRIPED SATURN
In a dazzling and dramatic portrait painted by the Sun, the long thin shadows of Saturn's rings sweep across the planet's northern latitudes. Within the shadows, bright bands represent areas where the ring material is less dense, while dark strips and wave patterns reveal areas of denser material. The shadow darkens sharply near upper right, corresponding to the boundary of the thin C ring with the denser B ring. The globe of Saturn's moon Mimas (247 miles, or 398 kilometers, across) has wandered into view near the bottom of the frame. A few large craters are visible on the small moon. Cassini captured this image on January 18, 2005, approximately 889,000 miles (1.4 million kilometers) from Saturn. Image Credit: NASA/JPL-Caltech/Space Science Institute
9 This LIMB SCAN
bizarre scene shows the cloud-streaked limb of Saturn in front of the planet's B ring. The ring's image is warped near the limb by the diffuse gas in Saturn's upper atmosphere. This view looks toward the sunlit side of the rings from about 31 degrees below the ring plane. North on Saturn is up. Cassini captured this image on June 24, 2008, at approximately 408,000 miles (657,000 kilometers) from Saturn using a spectral filter sensitive to wavelengths of infrared light centered at 750 nanometers. Image Credit: NASA/JPL-Caltech/Space Science Institute
10 THE RITE OF SPRING
Saturn has seen countless equinoxes since the birth of the solar system, but this is the first witnessed up close by Cassini. From 20 degrees above the ring plane, Cassini shot 75 exposures in succession for this mosaic showing Saturn, its rings, and a few of its moons a day and a half after Saturn equinox on August 12, 2009, when the sun’s disk was exactly overhead at the planet’s equator. These scenes are possible only during the few months before and after Saturn’s equinox, which occurs only once approximately every 15 Earth years. Cassini captured these images at approximately 526,000 miles (847,000 kilometers) from Saturn. Image Credit: NASA/ JPL-Caltech/Space Science Institute
11 Saturn's BEFORE WIDE SHADOWS
moon, Tethys, orbits in front of the wide shadows cast by the rings onto the planet. Tethys (660 miles, or 1,062 kilometers across) appears just below the rings near the center of the image. This view looks toward the northern, sunlit side of the rings from less than one degree above the ring plane. Cassini captured this image on December 7, 2011, at approximately 1.1 million miles (1.8 million kilometers) from Tethys using a spectral filter sensitive to wavelengths of near-infrared light centered at 752 nanometers. Image Credit: NASA/JPL-Caltech/Space Science Institute
12 HEXAGON AND RINGS
Saturn's north polar hexagon basks in the Sun's light once spring came to the northern hemisphere. Many smaller storms dot the north polar region and Saturn's signature rings, which seem to disappear because of Saturn's shadow. Cassini captured this image on November 27, 2012, using a spectral filter sensitive to wavelengths of near-infrared light centered at 750 nanometers. The view was acquired at a distance of approximately 403,000 miles (649,000 kilometers) from Saturn. Image Credit: NASA/JPL-Caltech/Space Science Institute
13 Cassini JEWEL OF THE SOLAR SYSTEM
swung high above Saturn to reveal this stately view of the golden-hued planet and its main rings. The view is in natural color, as human eyes would have seen it. This mosaic was made from 36 images in three color filters obtained by Cassini on October 10, 2013. Saturn sports differently colored bands of weather in this image. For instance, a bright, narrow wave of clouds around 42 degrees north latitude appears to be some of the turbulent aftermath of a giant storm that reached its violent peak in early 2011. The mysterious six-sided weather pattern known as the hexagon is visible around Saturn's north pole. Image Credit: NASA/JPL-Caltech/SSI/Cornell
14 Saturn BLINDING SATURN
sits enveloped by the full splendor of its stately rings. Taking in the rings in their entirety was the focus of this particular imaging sequence. The camera exposure times were just right to capture the dark-side of its rings, but longer than that required to properly expose the globe of sunlit Saturn. Consequently, the sunlit half of the planet is overexposed. A strip of twilight on the globe displays colorful details in the atmosphere. Bright clouds dot the bluish-grey northern polar region here. In the south, the planet's night side glows golden in reflected light from the rings' sunlit face. Cassini captured this image on January 19, 2007, approximately 764,000 miles (1.23 million kilometers) from Saturn. Image Credit: NASA/JPL-Caltech/Space Science Institute
15 This INFRARED
false-color composite image made from 65 individual Cassini observations shows Saturn's rings and southern hemisphere on November 1, 2008. In this image constructed from data collected in the near-infrared wavelengths of light, scientists designated blue to indicate sunlight reflected at a wavelength of 2 microns, green to indicate sunlight reflected at 3 microns, and red to indicate thermal emission at 5 microns. The heat emission from the interior of Saturn is only seen at 5 microns wavelength in the spectrometer data, and thus appears red. Image Credit: NASA/JPL-Caltech/ASI/University of Arizona
16 Cassini CATCHING ITS TAIL
gives us this true-color view of the largest, most intense storm observed on Saturn. The image was captured on February 25, 2011, when the storm had formed a tail that wrapped around the entire planet. Some of the clouds moved south and got caught up in a current that flows to the east (to the right) relative to the storm head. This tail, which appears as slightly blue clouds south and west (left) of the storm head, can be seen encountering the storm head in this view. The images were taken approximately 1.4 million miles (2.2 million kilometers) from Saturn. Image Credit: NASA/JPL-Caltech/Space Science Institute
17 ‘TIS THE SEASON
Winter is approaching in the southern hemisphere of Saturn in this view, captured by Cassini on July 29, 2013, at approximately 1 million miles (1.6 million kilometers) from Saturn. The changing blue hue that we have learned marks winter at Saturn is likely due to reduction of ultraviolet sunlight and the haze it produces, making the atmosphere clearer and increasing the opportunity for Rayleigh scattering (scattering by molecules and smaller particles) and methane absorption — both processes make the atmosphere blue. The small black dot seen to the right and up from image center, within the ring shadows of the A and F rings, is the shadow of the moon, Prometheus. Image Credit: NASA/JPL-Caltech/Space Science Institute
18 With IN SATURN’S SHADOW
giant Saturn hanging in the blackness and sheltering Cassini from the sun's blinding glare, the spacecraft viewed the rings as never before, revealing previously unknown faint rings and even glimpsing its home world. This marvelous panoramic view was created by combining 165 images taken by Cassini on September 15, 2006, as the spacecraft drifted in the darkness of Saturn's shadow for about 12 hours, allowing a multitude of unique observations of the microscopic particles that compose Saturn's faint rings. Color in the view was created by digitally compositing ultraviolet, infrared, and clear filter images and was then adjusted to resemble natural color. Cassini took the images at approximately 1.3 million miles (2.2 million kilometers) from Saturn. Image Credit: NASA/JPL-Caltech/Space Science Institute
19 2 RINGS: ICE PARTICLES, MOONLETS, AND GRAVITY
No other planet in our solar system has rings as splendid or spectacular as Saturn’s. So expansive and bright are Saturn’s rings that they were discovered as soon as humans began pointing telescopes at the night sky. Galileo Galilei was the first person known to study the heavens through a telescope, and he secured a place in an astronomical history when he discovered Jupiter’s four largest moons in 1610. Despite Saturn being roughly twice as far from Earth as Jupiter, Saturn’s rings are so big and brilliant that Galileo observed them in the same year he spotted Jupiter’s moons.
Galileo didn’t exactly understand what he was looking at, and in the centuries since their discovery, Saturn’s rings have remained to some extent a puzzle. Scientists have long tried to understand the exact composition of the rings, as well as their age and origin. Scientists don’t even know their mass precisely. Cassini has worked to answer those questions.
Despite Saturn being the only planet in our solar system to possess rings of such magnitude, rings have nonetheless become popularly synonymous with the idea of a planet. “Saturn’s rings are truly extraordinary,” said Cassini Project Scientist Linda Spilker. “They’re actually made up of separate ice particles, and the thought that millions of individual particles, each on its own path, can combine to create such intricate, beautiful waves and structures is astonishing.”
Spilker says that up close, the ring particles might look like fluffy snowballs, but that inside they might be more like solid ice, and they vary extremely in size. “Some are only the size of tiny marbles while others are the size of mountains,” she said. Spilker has no trouble imagining being
a spacesuited human floating along with the ring particles in their orbits. “You would gently collide with the particles, and some might even stick to your spacesuit,” Spilker said. “They are in a thin layer too, so you would be able to easily dive through the particles to the other side of the rings.”
Because Cassini was the first spacecraft to orbit Saturn, and did so for more than 13 years, Cassini documented the rings as no spacecraft could before, discovering previously unknown features and behaviors, some of which are included in the following pages. Even through the mission’s final months, the Cassini family still gasped when viewing the spacecraft’s latest images of Saturn’s rings.
Chapter Title Image: Colorful Division
The rings are awash in subtle tones of gold and cream in this view, which looks toward the unlit side of the rings from about 30 degrees above the ring plane and shows the outer B ring, the Cassini Division, and the inner part of the A ring. This natural-color view was created from images taken using red, green, and blue spectral filters captured by Cassini on September 29, 2006, at approximately 1.14 million miles (1.83 million kilometers) from Saturn. Image Credit: NASA/ JPL-Caltech/Space Science Institute
21Saturn PRETTY IN PINK
and its rings are prominently shown in this color image, along with three of Saturn's smaller moons, which are (left to right) Prometheus, Pandora, and Janus. Prometheus and Pandora are often called the "F ring shepherds" because they control and interact with Saturn's F ring, seen between them. This image was created by combining images the Cassini spacecraft took using red, green, and blue filters on June 18, 2004, from 5.1 million miles (8.2 million kilometers) from Saturn. Contrast has been enhanced to aid visibility. Image Credit: NASA/JPL-Caltech/ Space Science Institute
22 SOUTHERN COLOR
The Cassini spacecraft samples a bit of Saturn's southern hemisphere along with a spread of the planet's main rings. Working outward from the planet, the C, B, and A rings are visible in this image. The rings have been brightened relative to the planet to enhance their visibility. This natural-color view looks toward the sunlit side of the rings from about 59 degrees below the ring plane. The image was created by combining images taken with red, green, and blue spectral filters taken by Cassini on April 23, 2009, at a distance of approximately 621,000 miles (1 million kilometers) from Saturn. Image Credit: NASA/JPL-Caltech/Space Science Institute
23 ACROSS RESPLENDENT RINGS
The shadow of Saturn's moon, Mimas, dips onto the planet's rings and straddles the Cassini Division in this natural-color image taken as Saturn approaches its August 2009 equinox, which occurs only once about every 15 Earth years. The illumination geometry in the few months before and after equinox allows moons orbiting in or near the plane of Saturn's equatorial rings to cast shadows onto the rings. This view looks toward the sunlit side of the rings from about 52 degrees below the ring plane and was created by combining images taken by Cassini using red, green, and blue spectral filters on April 8, 2009, at a distance of approximately 684,000 miles (1.1 million kilometers) from Saturn. Image Credit: NASA/JPL-Caltech/Space Science Institute
24 RHEA’S RING SHADOW
Rhea joins other Saturnian moons in casting a shadow on the rings in this image taken as Saturn approached its August 2009 equinox. The night side of the planet is dimly illuminated here by ringshine, the southern hemisphere more so than the north. The excess brightness in the lower left of the image is lens flare, an artifact from light scattering within the camera optics. This view looks toward the unilluminated side of the rings from about 17 degrees above the ring plane. Cassini captured this image in visible light on July 21, 2009, from approximately 1.2 million miles (1.9 million kilometers) from Saturn. Image Credit: NASA/JPL-Caltech/Space Science Institute
25 GLORIOUS VIEW
Sunlight took many different paths to compose this glorious image of Saturn and its rings. Sunlight reflects off the illuminated side of the rings to light the planet's southern hemisphere. The northern hemisphere (top left corner of the image) is dimly lit by light scattered through the rings. The planet's shadow cuts across the rings, but light reflected off the southern hemisphere backlights parts of the C ring, making them visible in silhouette. Stars occulted by the rings make bright points of light in the image. This natural-color view was created by combining images taken by Cassini on March 20, 2009, using red, green, and blue spectral filters at approximately 554,000 miles (892,000 kilometers) from Saturn. Image Credit: NASA/JPL-Caltech/Space Science Institute
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CRISS-CROSSED RINGS
Saturn's rings appear to intersect themselves in an impossible way in this Cassini image, but the image actually shows the rings in front of the planet, upon which the shadow of the rings is cast. Because rings like the A ring and Cassini Division, in the foreground, are not entirely opaque, the disk of Saturn and those ring shadows can be seen directly through the rings themselves. Saturn’s moon, Pan (17 miles or 28 kilometers across, near image center), keeps open the Encke gap. Cassini took this image in visible light on February 11, 2016, at approximately 1.2 million miles (1.9 million kilometers) from Pan. Image Credit: NASA/JPL-Caltech/Space Science Institute
27 VEIL OF ICE
The Cassini spacecraft stares toward Saturn through its gauzy veil of rings. The great ice-particle screen acts like a filter, attenuating the glare from the planet and making its high-altitude haze easy to see. The F ring shows off the faint ringlets flanking its core, and a single ringlet can be seen in the Encke Gap, crossing through center. This view looks toward the unlit side of the rings from about 18 degrees above the ring plane. Cassini took the image in visible blue light on November 4, 2006, at a distance of approximately 1 million miles (1.7 million kilometers) from Saturn. Image Credit: NASA/ JPL-Caltech/Space Science Institute
28 The GROOVES BLUE
ON Cassini spacecraft peers through Saturn's delicate,
translucent inner C ring to see the diffuse blue limb of Saturn's atmosphere. This view looks toward the unilluminated side of the rings from about 20 degrees above the ring plane. It was created by combining images Cassini took using red, green, and blue spectral filters on April 25, 2008, at a distance of approximately 930,000 miles (1.5 million kilometers) from Saturn. Image Credit: NASA/JPL-Caltech/Space Science Institute
29 ATMOSPHERIC ILLUSION
Believe it or not, this extreme close-up of Saturn's swirling clouds was acquired from more than 621,370 miles (1 million kilometers) from the gas giant. The rings appear severely bent because of atmospheric refraction as they pass behind the planet. The dark region in the rings is the 2,980-mile-wide (4,800-kilometer-wide) Cassini Division. Cassini captured the image in visible light on June 25, 2005, at approximately 600,000 miles (1 million kilometers) from Saturn. Image Credit: NASA/JPL-Caltech/Space Science Institute
30 The RAINBOW ON THE RINGS
opposition effect, a brightness surge visible on Saturn's rings when the sun is directly behind the spacecraft, is captured here as a colorful halo. The rainbow is actually an artifact from how the image was produced. Cassini acquires color images by taking sequential exposures using red, green, and blue spectral filters, which are then composited together to form a color view. In this case the bright patch traveled across the rings between exposures (because Cassini was moving), creating three colorful spots from three separate moments. This view looks toward the sunlit side of the rings from about 9 degrees below the ring plane. Cassini acquired the images for this view on June 12, 2007, at approximately 325,000 miles (523,000 kilometers) from Saturn. Image Credit: NASA/JPL-Caltech/Space Science Institute
31 FLEEING THE SCENE
Saturn's moon Prometheus, having perturbed the planet's thin F ring, continues in its orbit. The gravity of potato-shaped Prometheus (53 miles, or 86 kilometers, across) periodically creates streamer-channels in the F ring, and the moon's handiwork is visible in the dark channels here. This view looks toward the northern, sunlit side of the rings from about 10 degrees above the ring plane. A star is visible through the rings near center-right of the image. Cassini took the image in visible light on June 1, 2010, at approximately 808,000 miles (1.3 million kilometers) from Saturn. Image Credit: NASA/JPL-Caltech/Space Science Institute
32 F RING ZOO
The F ring shows off a rich variety of phenomena in this image. Near the lower-right of the F ring, two "fans" of material radiate out of the main strand (or "core") of the ring. Kinks are apparent all along the core, and dark "channels" cut into the main strand — activity resulting from a recent interaction with the shepherd moon, Prometheus (which cannot be seen in this image). This view looks toward the sunlit side of the rings from about six degrees above the ring plane. Cassini took the image in visible light on December 25, 2012, at approximately 680,000 miles (1.1 million kilometers) from Saturn. Image Credit: NASA/JPL-Caltech/Space Science Institute
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CHECKING IN ON BLERIOT
What appears as a pair of bright dashes at the center of this image is one of the features rings scientists have dubbed "propellers." This propeller, named Bleriot, marks the presence of a body that is much larger than the particles around it, yet too small to clear out a complete gap in the rings (as moons Pan and Daphnis have) and become a moon in its own right. The moonlet at the propeller’s core is too small to see, but gravitational disturbances in the rings betray the moonlet’s presence. Cassini took the image in visible light on January 9, 2017, at approximately 223,000 miles (359,000 kilometers) from Saturn. Image Credit: NASA/JPL-Caltech/Space Science Institute
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PROPELLER BELTS OF SATURN
This view from NASA's Cassini spacecraft is the sharpest ever taken of belts of the features called propellers in the middle part of Saturn's A ring. The propellers are the small, bright features that look like double dashes, visible on both sides of the wave pattern that crosses the image diagonally from top to bottom. This image shows, for the first time, swarms of propellers of a wide range of sizes, putting the ones Cassini observed in its Saturn arrival images in context. Cassini took this image April 19, 2017, at approximately 80,000 miles (129,000 kilometers) from Saturn's center. Image Credit: NASA/JPL-Caltech/Space Science Institute
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SAWTOOTH SHADOWS
Jagged-looking shadows stretch away from vertical structures of ring material created by the moon Daphnis in this image, taken as Saturn approached its August 2009 equinox, which occurs about only once every 15 Earth years. The illumination geometry in the few months before and after equinox causes out-of-plane structures to cast long shadows across the rings. Daphnis (5 miles, or 8 kilometers across) is a bright dot casting a thin shadow just left of center in the image. The moon has an inclined orbit, and it gravitationally perturbs the particles of the A ring forming the Keeler Gap's edge. Cassini took the image in visible light on June 26, 2009, at approximately 511,000 miles (823,000 kilometers) from Daphnis. Image Credit: NASA/JPL-Caltech/Space Science Institute
36 WAVING GOODBYE
This close-up view of the Keeler Gap, which is near the outer edge of Saturn's main rings, shows in great detail just how much the moon Daphnis affects the edges of the gap. Daphnis creates waves in the edges of the gap through its gravitational influence. Some clumping of ring particles can be seen in the perturbed edge. This view looks toward the sunlit side of the rings from about 3 degrees above the ring plane. Cassini acquired the image in visible light on January 16, 2017, at approximately 18,000 miles (30,000 kilometers) from Daphnis. Image Credit: NASA/JPL-Caltech/Space Science Institute
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THE TALLEST PEAKS
Rising abruptly from the edge of Saturn's B ring are vertical structures casting long shadows on the ring in this image, taken by Cassini two weeks before the planet's August 2009 equinox. The vertical structures tower as high as 1.6 miles (2.5 kilometers) above the plane of the rings, which are generally only about about 30 feet (10 meters) thick. This view looks toward the southern, sunlit side of the rings from about 32 degrees below the ring plane. Cassini captured this image of a 750-mile- long (1,200-kilometer-long) section along the outer edge of the B ring in visible light on July 26, 2009. The view was acquired at a distance of approximately 209,000 miles (336,000 kilometers) from
38 Saturn. Image Credit: NASA/JPL-Caltech/Space Science Institute
3TITAN: A MOON OBSCURED
Of the more than 150 known moons in our solar system, only one has a substantial atmosphere. Of all the worlds in the solar system — the moons, planets, dwarf planets, and small bodies — only one place besides Earth is known to have liquid lakes and seas on its surface. In both cases, that one place is Saturn’s moon, Titan.
At 3,200 miles (5,150 kilometers) across, Titan is slightly larger than planet Mercury and is also perhaps the most mysterious moon in our solar system because (if for no other reason) the moon’s surface is shrouded beneath an orange haze. This mammoth moon was one of the highest-priority scientific targets for the Cassini- Huygens mission. The spacecraft’s Visual and Infrared Mapping Spectrometer and Cassini’s RADAR instrument were included on the spacecraft largely to peek through Titan’s veil. The same goes for the European Space Agency’s Huygens probe, which journeyed to Saturn with Cassini, and whose sole purpose was to land on and study Titan, earning the honor of being the first probe to land in the outer solar system.
Cassini and Huygens found that if we set aside the difference in size, this fuzzy-looking and frigid world is more like Earth than any other place human spacecraft have explored. “Titan has so many of the processes we have on Earth but with exotic materials,” said Jonathan Lunine, a Cassini interdisciplinary scientist from Cornell University. “It has methane-driven weather instead of water-driven weather, ice mountains instead of rock mountains, and organic dune particles instead of silica sand dune particles.”
A human standing upon the surface of Titan would find the environment both familiar and alien. Like Earth, Titan has a primarily nitrogen atmosphere that’s so dense that it’s one of the
most hospitable atmospheres in the solar system. “You just need oxygen to breathe and protection against the cold, but no pressure suit needed,” Lunine said.
Titan’s surface is coated in organic molecules that form in the upper atmosphere. Methane rain fills the rivers, lakes and seas, the largest of which are hundreds of feet deep and hundreds of miles wide. “You could hear the waves lapping onto the shore as you stand close to Ligeia Mare, one of the great methane seas of Titan,” Lunine said. With the far shore beyond the horizon, it would be like standing on the shore of one of the U.S. Great Lakes, but with a few cosmetic alterations. “Remove the human-made structures, turn down the sun to twilight, tint the light red, and crank gravity down to lunar values,” Lunine said. The relatively low gravity and dense atmosphere have a bizarre consequence. “The methane rain falls so slowly that a typical storm will pass over you and drift away before the rain arrives on your head — a methane sun-shower!”
Chapter Title Image: Colorful Colossuses and Changing Hues
A giant of a moon appears before a giant of a planet undergoing seasonal changes in this natural-color view of Titan and Saturn from NASA's Cassini spacecraft. This view looks toward the northern, sunlit side of the rings from just above the ring plane. This mosaic combines six images — two each of red, green, and blue spectral filters — to create this natural-color view. The Cassini spacecraft captured the images on May 6, 2012, at approximately 483,000 miles (778,000 kilometers) from Titan. Image Credit: NASA/JPL-Caltech/Space Science Institute
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VEILED WORLDS
Although Titan’s and Saturn’s faces seem similar here, appearances can be misleading. Saturn is a gas giant, covered in clouds, with no solid surface to speak of, while Titan's atmosphere is a blanket of dense haze — a photochemical smog — surrounding an icy, solid body. Saturn’s atmosphere is mostly hydrogen and helium with clouds of water, ammonia, and ammonium hydrosulfide. Titan's atmosphere, however, is primarily nitrogen and methane, with occasional methane clouds. This view looks toward Saturn from the unilluminated side of the rings, 0.3 degrees below the ring plane. The image was taken in visible green light on May 22, 2015, at approximately 1.4 million miles (2.2 million kilometers) from Saturn. Image Credit: NASA/JPL-Caltech/Space Science Institute
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MANY COLORS, MANY MOONS
Four moons huddle near Saturn's multi-hued disk in this natural-color view captured by Cassini on October 26, 2007, at approximately 920,000 miles (1.5 million kilometers) from Saturn and 1.7 million miles (2.7 million kilometers) from Titan. Giant Titan dominates the smaller moons in the scene. Beneath and left of Titan is Janus (113 miles, or 181 kilometers across). Mimas (247 miles, or 397 kilometers across) appears as a bright dot close to the planet and beneath the rings. Prometheus (63 miles, or 102 kilometers across) is a faint speck hugging the rings between the two small moons. This view looks toward the unilluminated side of the rings from less than a degree above the ring plane. Image Credit: NASA/JPL/Space Science Institute
42 POLAR VORTEX IN COLOR
The recently formed south polar vortex stands out in the color-swaddled atmosphere of Saturn's largest moon, Titan, in this view acquired by Cassini on July 25, 2012, at approximately 64,000 miles (103,000 kilometers) from Titan. To create this natural- color view, images taken using red, green, and blue spectral filters were combined. Image Credit: NASA/JPL-Caltech/Space Science Institute
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Sunlight A RING OF COLOR
scatters through the periphery of Titan's atmosphere, forming a ring of color in this view captured by Cassini on June 6, 2012, at approximately 134,000 miles (216,000 kilometers) from Titan. The hazy moon’s north polar hood can be seen at the top of this view, and a hint of the south polar vortex is visible at bottom. Cassini is looking at the Saturn-facing side of Titan, where north is up and rotated 9 degrees to the right. Images taken using red, green, and blue spectral filters were combined to create this natural-color view. Image Credit: NASA/JPL- Caltech/Space Science Institute
44 FIRE AND ICE
45 Saturn's largest and second largest moons, Titan and Rhea, appear stacked atop one another in this true-color scene from Cassini. Titan’s north polar hood appears as a detached layer at the top right of the moon. This view looks toward the Saturn- facing side of Rhea, whose north in this image is up and rotated 35 degrees to the right. The images that were combined to create this view were taken using red, green, and blue spectral filters on June 16, 2011, at a distance of approximately 1.1 million miles (1.8 million kilometers) from Rhea and 1.5 million miles (2.5 million kilometers) from Titan. Image Credit: NASA/JPL- Caltech/Space Science Institute
PEEKING AT SATURN
Cassini peers around the hazy limb of Titan to spy the sunlit south pole of Saturn in the distance beyond. The thick, smog-like atmosphere of frigid Titan was a major source of interest for the Cassini mission. The images that were combined to create this view were taken using red, green, and blue spectral filters on December 26, 2005, at a distance of approximately 16,000 miles (26,000 kilometers) from Titan. Image Credit: NASA/JPL/Space Science Institute
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TITAN: COMPLEX “ANTI-GREENHOUSE”
This natural-color image shows Titan’s upper atmosphere — an active place where solar ultraviolet light breaks apart methane molecules, and the byproducts combine to form compounds like ethane and acetylene. The haze preferentially scatters blue and ultraviolet wavelengths of light, making the atmosphere’s complex layered structure more easily visible at the shorter wavelengths used in this image. The images that were combined to create this view were taken on March 31, 2005, using red, green, and blue spectral filters at approximately 5,900 miles (9,500 kilometers) from Titan. Image Credit: NASA/JPL/Space Science Institute
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REFLECTION OF SUNLIGHT OFF TITAN LAKE
This image shows the first flash of sunlight reflected off a hydrocarbon lake on Titan. The moon’s north was shrouded in darkness for nearly 15 years (half of a Saturn year), but as the sun began illuminating the area again, Cassini captured this image during its 59th flyby of Titan on July 8, 2009, at about 120,000 miles (200,000 kilometers) from the moon. The observation confirmed the presence of liquid in the moon's northern hemisphere, where lakes are more numerous and larger than in the southern hemisphere. Cassini looked for glints in infrared wavelengths that were able to penetrate the moon's hazy atmosphere, which scatters and absorbs many wavelengths of light, including most visible wavelengths. Image Credit: NASA/JPL/University of Arizona/DLR
48 NORTHERN SUMMER ON TITAN
49 PEERING THROUGH TITAN’S HAZE
50 NORTHERN SUMMER ON TITAN (PAGE 49)
The Cassini spacecraft sees bright methane clouds drifting in the summer skies of Saturn's moon Titan, along with dark hydrocarbon lakes and seas clustered around the north pole. The Saturn system reached northern summer solstice on May 24, 2017, and when Cassini took this image on June 9, 2017, most of the surface in the moon's northern high latitudes was illuminated by the sun, unlike earlier in the mission. Cassini obtained the view at about 315,000 miles (507,000 kilometers) from Titan, using a spectral filter that preferentially admits wavelengths of near-infrared light. Image Credit: NASA/JPL-Caltech/Space Science Institute
PEERING THROUGH TITAN’S HAZE (PREVIOUS PAGE)
This composite image shows an infrared view of Saturn's moon, Titan, from Cassini, acquired during the mission's "T-114" flyby on November 13, 2015. At visible wavelengths, this view would show only Titan's hazy atmosphere, but near- infrared wavelengths allow Cassini's vision to penetrate Titan’s haze and reveal the moon's surface. The view features the parallel, dark, dune-filled regions named Fensal (to the north) and Aztlan (to the south), which form the shape of a sideways letter "H." Several places on the image are at higher resolution than elsewhere because they were acquired near closest approach. During this Titan flyby, the spacecraft's closest-approach altitude was 6,200 miles (10,000 kilometers). Image Credit: NASA/JPL/University of Arizona/ University of Idaho
51 Ligeia VAST LIGEIA MARE IN FALSE COLOR
Mare, shown here in a false-color Cassini image, is the second largest known body of liquid on Saturn's moon, Titan. It is filled with liquid hydrocarbons, such as ethane and methane, and is one of the many seas and lakes that bejewel Titan's north polar region. Cassini obtained the false-color mosaic of radar images between February 2006 and April 2007. Dark areas (low-radar return) are colored black, while bright regions (high-radar return) are colored yellow to white. Image Credit: NASA/JPL-Caltech/ASI/Cornell
52 INTERACTIVE 3.1 Select the image below to enter the viewer and explore the landscape in 360 degrees. Once inside the viewer, click and drag the image to look around. On a mobile device, you can enable navigation controlled with the movement of your device by toggling the icon in the upper left corner of the viewer.
ON THE SHORE OF LIGEIA MARE, TITAN
This 360-degree viewer represents what it might look like if you stood on the shore of Ligeia Mare, one of Titan’s methane seas. The details in this view are artistic approximations because such details were too fine for the Cassini spacecraft’s instruments to detect, but the large- scale topography was created using real observations from the spacecraft. Likewise, the presence and shape of clouds is based on imagery from the spacecraft, and the color of the sky and low angle of the sun are modeled on observed characteristics of Titan.
53 SATURN THROUGH THE HAZE
Less than 20 minutes after Cassini's close approach to Titan on March 31, 2005, its cameras captured this view of Saturn through Titan's upper atmosphere. The northern part of Saturn's disk can be seen at the upper left with dark horizontal shadows cast upon Saturn by its rings. The diffuse bright regions of the image (below Saturn and at right) are light being scattered by haze in Titan's upper atmosphere. The image shows both how Titan's haze transmits light (from the attenuation of light from Saturn) and how the haze reflects light (from its brightness next to Saturn). The image was taken in visible light at 4,960 miles (7,980 kilometers) from Titan, and about 808,000 miles (1.3 million kilometers) from Saturn. Image Credit: NASA/JPL/Space Science Institute
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VIEWS OF TITAN FROM DIFFERENT ALTITUDES
55 VIEWS OF TITAN FROM DIFFERENT ALTITUDES (PREVIOUS PAGE)
This is a set of images acquired by the European Space Agency's Huygens probe in the four cardinal directions (north, south, east, west), at five different altitudes above Titan's surface. The images were taken as Huygens descended through Titan’s atmosphere to land on the moon’s surface on January 14, 2005. The probe was delivered to Titan by the Cassini spacecraft. Image Credit: ESA/NASA/ JPL/University of Arizona
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FIRST COLOR VIEW OF TITAN’S SURFACEThis image was taken on January 14, 2005, by the European Space Agency's Huygens probe upon its successful landing on Titan. This is a processed image that gives an indication of the actual color of Titan’s surface. The two rock-like objects just below the middle of the image are about 6 inches (15 centimeters) (left) and about 1.5 inches (4 centimeters) (center) across respectively, and are about 33 inches (85 centimeters) from Huygens. Titan’s surface was darker than expected and consisted of a mixture of water and hydrocarbon ice. Image Credit: NASA/JPL/ESA/ University of Arizona
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TITAN AND DIONE
Saturn's fourth-largest moon, Dione (698 miles or 1,123 kilometers across), is visible through the haze of Saturn’s largest moon, Titan (3,200 miles or 5,150 kilometers across), in this view of the two moons before the planet. Titan’s north polar hood appears as a detached layer at the top of the moon. This view looks toward the northern, sunlit side of the rings from just above the ring plane, and north is up on the moons. The images that were combined to create this view were taken on May 21, 2011, using red, green, and blue spectral filters at approximately 1.4 million miles (2.3 million kilometers) from Titan and 2 million miles (3.2 million kilometers) from Dione. Image Credit: NASA/JPL-Caltech/Space Science Institute
58 OBSCURED RINGS
BY Saturn's rings obscure part of Titan's colorful visage in this Cassini
image. Titan’s south polar vortex is visible at the bottom. Visible near the top is the north polar hood, a cap of haze slightly darker than the rest of Titan’s atmosphere. Saturn’s shadow darkens the rings near the center of this view, but a sliver of illuminated Titan can be seen through the Cassini Division near the middle of that darkness. This view looks toward the northern, sunlit side of the rings from just above the ring plane. Cassini captured the images that were combined to create this natural-color view on May 16, 2012, using red, green, and blue spectral filters at approximately 1.9 million miles (3 million kilometers) from Titan. Image Credit: NASA/JPL-Caltech/Space Science Institute
59 Saturn's CANDLE IN THE DARK
rings cut across an eerie scene ruled by Titan's luminous crescent and globe-encircling haze, broken by the small moon Enceladus, whose icy jets are dimly visible at its south pole. The scattered light around planet-sized Titan (3,200 miles, or 5,150 kilometers across) makes the moon's solid surface visible in silhouette. Enceladus (314 miles, or 505 kilometers across) enjoys far clearer skies than its giant sibling moon. This view shows the unlit side of Saturn's rings, and north is up. Cassini captured this image in visible red light on June 10, 2006, at approximately 2.4 million miles (3.9 million kilometers) from Enceladus and 3.3 million miles (5.3 million kilometers) from Titan. Image Credit: NASA/JPL/Space Science Institute
60 TITAN UP FRONT
The colorful globe of Saturn's largest moon, Titan, passes in front of the planet and its rings in this true-color snapshot from Cassini, which looks toward the northern, sunlit side of the rings from just above the ring plane. Titan’s north polar hood appears as a detached layer at the top of the moon. Cassini captured the images that were combined to create this natural-color view on May 21, 2011, using red, green, and blue spectral filters at approximately 1.4 million miles (2.3 million kilometers) from Titan. Image Credit: NASA/JPL-Caltech/Space Science Institute
61 ENCELADUS: THE RAREST OF PEARLS
Excluding Earth, Saturn’s sixth largest moon, Enceladus, may be the most exceptional world in the solar system. Because Enceladus is so small — barely over 300 miles in diameter — and is nearly 10 times farther from the sun than Earth, it should be entirely frozen. But NASA's Cassini mission found that jets of water and icy particles spray from prominent fissures near the moon’s south pole, producing a plume of ice and gas hundreds of miles high. That alone is extraordinary, but Cassini also revealed that the plume’s source is a global ocean of salty water hidden beneath miles of ice. The ocean is venting directly into space through the fissures.
Most of the ice grains in the plume fall back to the surface of Enceladus, slowly softening the edges of the moon's craters and canyons the way snowfall on Earth covers footprints. This celestial snowfall makes Enceladus the whitest, most reflective world in the solar system. A fraction of the plume material escapes the moon’s gravity to form Saturn’s E ring — a ring entirely produced by a moon.
"We knew something was happening with this intriguing little ice moon — it looked like a winter wonderland of freshly fallen snow,” said Bonnie Buratti, a senior research scientist at NASA’s Jet Propulsion Laboratory. “When a hot spot was discovered at the south pole, and later a glorious plume of ice particles coming from that spot, we felt we had solved a great mystery. But there’s still plenty of work to be done, characterizing that plume and how it forms and changes through time."
Hydrogen in the plume, along with tiny sand grains Cassini directly sampled and analyzed, provide convincing evidence that hydrothermal
vents are spewing hot, mineral-laden water from below the seafloor into the Enceladus ocean. Such vents are one of the places scientists suspect life could have begun on Earth. Thanks to Cassini, Enceladus is now one of the prime targets in the quest to find environments beyond Earth where life might have evolved.
If you stood near the active south pole of this snow globe world, Saturn and its broad span of rings would nearly fill your view. From the half of the moon that faces Saturn, the ringed planet never sets or even seems to move because Enceladus always shows the same side to Saturn. But all is not still. The face of Saturn changes as the planet rotates on its axis every 10 hours. Another of Saturn’s moons, Mimas, passes in front of Saturn every three days or so, just 33,000 miles from Enceladus. To Saturn’s sides, the stars appear to move together from right to left in a cycle that repeats every 33 hours. If you turn away from Saturn completely, the blackness twinkles with glittering flecks of ice.
Chapter Title Image: Zooming in on Enceladus
From afar, Enceladus exhibits a bizarre mixture of softened craters and complex, fractured terrains. This false-color mosaic was produced from 21 images Cassini acquired as the spacecraft swooped past the south pole of Saturn's moon, Enceladus, on July 14, 2005. The original images were taken at distances ranging from about 38,100 to 6,900 miles (61,300 to 11,100 kilometers) from Enceladus, and at wavelengths from the ultraviolet to the infrared portion of the spectrum. Image Credit: NASA/ JPL-Caltech/Space Science Institute
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Since BULL’S-EYE MOONS
the two moons in this image are aligned and are at relatively similar distances from NASA’s Cassini spacecraft, the image provides a good approximation of the relative sizes of Enceladus (313 miles or 504 kilometers across) and Tethys (660 miles or 1,062 kilometers across). This view looks toward the unilluminated side of the rings from 0.34 degrees below the ring plane. Cassini captured the image in red light on September 24, 2015. Image Credit: NASA/JPL-Caltech/Space Science Institute
64
Numerous STARRY NIGHT
stars provide a serene background in this view of Enceladus captured by the Cassini spacecraft while the moon was in Saturn's shadow. The view looks up at Enceladus' south pole. Not visible from this angle are the icy moon's famed jets, which are aimed toward the spacecraft in this view. Cassini captured this image in visible light on October 9, 2008, at approximately 52,000 miles (83,000 kilometers) from Enceladus. Image Credit: NASA/JPL-Caltech/Space Science Institute
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Saturn's BRIGHT ENCELADUS
moon, Enceladus, reflects sunlight brightly in this image while the planet and its rings fill the background. Enceladus is the most reflective body in the solar system because fresh, white ice particles constantly coat its surface. In this view, north on Enceladus is up and rotated 21 degrees to the left. This view looks toward the northern, sunlit side of the rings from just above the ring plane. The image was taken in visible light on December 21, 2010, at approximately 63,000 miles (102,000 kilometers) from Enceladus. Image Credit: NASA/JPL-Caltech/Space Science Institute
66 A TECTONIC FEAST
67 A TECTONIC FEAST (PREVIOUS PAGE)
As Cassini receded from Enceladus just after coming within 15.6 miles (25 kilometers) of the moon’s surface, the spacecraft captured 28 images used to create this false- color mosaic on October 9, 2008, at distances ranging from 18,750 to 30,000 miles (30,000 to 48,000 kilometers). Craters are rare in the southern region of the moon's Saturn-facing hemisphere. Instead are fractures, folds, and ridges — hallmarks of remarkable tectonic activity for a relatively small world. Image Credit: NASA/JPL-Caltech/ Space Science Institute
INTERACTIVE 4.1 Enceladus This interactive visualization of Saturn’s moon, Enceladus, was created from images captured by the Cassini spacecraft. Multiple images were stitched together to create a mosaic of the moon’s surface, and that mosaic was then projected onto the model.
Select the image above to interact with the model.
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FOUNTAINS OF ENCELADUS
This greatly enhanced and colorized image shows the enormous extent of the fainter, larger-scale component of Enceladus’ plume, which is produced by water jets spraying through fissures at the south pole. Cassini captured this image on November 27, 2005. Image Credit: NASA/JPL-Caltech/ Space Science Institute
69 BEAUTIFUL PLUMAGE
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Here sunlight reflected off Saturn illuminates Enceladus. North on Enceladus is up and rotated 45 degrees to the right. Cassini took the image in visible light on January 18, 2013, at approximately 483,000 miles (777,000 kilometers) from Enceladus. Image Credit: NASA/JPL-Caltech/Space Science Institute
BURSTING AT THE SEAMS: THE WATER-JET BASIN OF ENCELADUS
Cassini captured this view of the south polar region of Enceladus on November 30, 2010. Jets of icy particles erupt continuously from fractures in the moon's crust. In this view, the plume created by the jets is backlit by the sun and falls partially within the shadow cast by Enceladus. Image Credit: NASA/JPL-Caltech/Space Science Institute
71 ENCELADUS PLUME MOVIE
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Jets of icy particles burst from Saturn's moon, Enceladus, in this brief movie sequence of four images taken on November 27, 2005. The sensational discovery of active eruptions on a third outer solar system body (Io and Triton are the others) is one of the great highlights of the Cassini mission. These images were obtained at distances between about 89,700 and 92,900 miles (about 144,500 and 149,500 kilometers) from Enceladus. Image Credit: NASA/JPL-Caltech/Space Science Institute
Select the image above to view the sequence as a movie.
JETS AND SHADOWS
Cassini acquired this image on November 30, 2010, 1.4 years after Saturn’s southern autumnal equinox, during a survey of the water-jet basin at the south pole of Enceladus. At the moment the image was captured, Cassini was essentially in the moon's equatorial plane, looking across the moon's south pole. The shadow of the body of Enceladus on the lower portions of the jets is clearly visible. Image Credit: NASA/JPL-Caltech/Space Science Institute
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ENCELADUS FLYBY – SKEET SHOOT
This image was the eighth of several “skeet shoot” images Cassini captured during its October 31, 2008, flyby of Saturn's moon, Enceladus. The great fissure running across the image from left to right is Damascus Sulcus — one of the fractures through which the moon’s salty ocean sprays into space. Cassini took the image at approximately 3,500 miles (5,600 kilometers) from Enceladus. Image Credit: NASA/JPL-Caltech/Space Science Institute
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NASA's SATURNIAN SNOWMAN
Cassini spacecraft spied this tight trio of craters as it approached Saturn's icy moon, Enceladus, for a close flyby on October 14, 2015. The craters, located at high northern latitudes, are sliced through by thin fractures — part of a network of similar cracks that wrap around the snow-white moon. Cassini captured the image in visible light at approximately 6,000 miles (10,000 kilometers) from Enceladus. Image Credit: NASA/JPL-Caltech/ Space Science Institute
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Bottom LOOMING ENCELADUS
left in this view is the night side of Saturn. Sunlight scatters through the planet’s atmosphere and forms the bright diagonal line running from the left to bottom right of the image. Cassini captured the image during the August 13, 2010, flyby of Enceladus, which is top right and closer to the spacecraft than the planet is. The famous jets are faintly visible here erupting from the fractures that cross the south polar region of the moon. Cassini took the image in visible light at approximately 37,000 miles (59,000 kilometers) from Enceladus. Image Credit: NASA/ JPL-Caltech/Space Science Institute
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Ring FOCUS ON ENCELADUS
shadows line the face of distant Saturn, providing an exquisite backdrop for the brilliant, white sphere of Enceladus. North is up. Cassini captured this image in green light on June 28, 2007, at approximately 181,000 miles (291,000 kilometers) from Enceladus. Image Credit: NASA/JPL-Caltech/Space Science Institute
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The LIGHT FROM MANY PATHS
light Cassini captured in this view has traveled many paths. The unlit side of the rings glows with scattered sunlight as two moons circle giant Saturn. At left, the moon Mimas presents its dark side. On the far side of the rings, the moon Enceladus is lit by Saturnshine, or sunlight reflected from the planet. Saturn, in turn, is faintly lit in the south by light reflecting off the rings. Saturn's shadow darkens the rings, tapering off toward the left side of this view. The image was taken in visible light on June 11, 2006, at approximately 2.5 million miles (3.9 million kilometers) from Mimas, 2.7 million miles (4.3 kilometers) from Enceladus, and 2.6 million miles (4.1 million kilometers) from Saturn. Image Credit: NASA/JPL-Caltech/Space Science Institute
78 A PEARL AT DUSK
Enceladus hangs like a single bright pearl against the golden-brown canvas of Saturn and its icy rings. Visible on Saturn is the planet’s terminator — the region where daylight gives way to dusk. Above, the rings throw thin shadows onto the planet. When approximately 100,000 miles (200,000 kilometers) from Enceladus, Cassini captured images using red, green, and blue spectral filters on January 17, 2006, and the images were combined to create this natural-color view. Image Credit: NASA/JPL-Caltech/Space Science Institute
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