Dienstag, 22. Dezember 2015 - 12:15 Uhr
Cassini will complete its final close flyby of Saturn's active moon Enceladus on Dec. 19.
A thrilling chapter in the exploration of the solar system will soon conclude, as NASA's Saturn-orbiting Cassini spacecraft makes its final close flyby of the ocean-bearing moon Enceladus. Cassini is scheduled to fly past Enceladus at a distance of 3,106 miles (4,999 kilometers) on Saturday, Dec. 19, at 9:49 a.m. PST (12:49 p.m. EST).
Although the spacecraft will continue to observe Enceladus during the remainder of its mission (through September 2017), it will be from much greater distances -- at closest, more than four times farther away than the Dec. 19 encounter.
The upcoming flyby will focus on measuring how much heat is coming through the ice from the moon's interior -- an important consideration for understanding what is driving the plume of gas and icy particles that sprays continuously from an ocean below the surface.
"Understanding how much warmth Enceladus has in its heart provides insight into its remarkable geologic activity, and that makes this last close flyby a fantastic scientific opportunity," said Linda Spilker, Cassini project scientist at NASA's Jet Propulsion Laboratory, Pasadena, California.
By design, the encounter will not be Cassini's closest. The flyby was designed to allow Cassini's Composite Infrared Spectrometer (CIRS) instrument to observe heat flow across Enceladus' south polar terrain.
"The distance of this flyby is in the sweet spot for us to map the heat coming from within Enceladus -- not too close, and not too far away. It allows us to map a good portion of the intriguing south polar region at good resolution," said Mike Flasar, CIRS team lead at NASA's Goddard Space Flight Center, Greenbelt, Maryland.
The south polar region of Enceladus, while well lit for observing observations by Cassini's visible light cameras when the spacecraft arrived at Saturn in mid-2004, is presently in the darkness of the years-long Saturnian winter. The absence of heat from the sun makes it easier for Cassini to observe the warmth from Enceladus itself. By the time the mission concludes, Cassini will have obtained observations over six years of winter darkness in the moon's southern hemisphere.
Cassini completed a daring dive through the moon's erupting plume on Oct. 28, passing just 30 miles (49 kilometers) above the surface. Scientists are still analyzing data collected during that encounter to better understand the nature of the plume, its particles and whether hydrogen gas is present -- the latter would be an independent line of evidence for active hydrothermal systems in the seafloor.
This moderately close flyby will be the 22nd of Cassini's long mission. The spacecraft's surprising discovery of geologic activity on Enceladus, not long after arriving at Saturn, prompted changes to the mission's flight plan in order to maximize the number and quality of encounters with the icy moon. Cassini made its closest Enceladus flyby on Oct. 9, 2008, at an altitude of 16 miles (25 kilometers).
The unfolding story of Enceladus has been one of the great triumphs of Cassini's historic mission at Saturn. Scientists first detected signs of the moon's icy plume in early 2005, followed by a series of discoveries about the material gushing from warm fractures near its south pole. They announced strong evidence for a regional subsurface sea in 2014, revising their understanding in 2015 to confirm that the moon hosts a global ocean beneath its icy crust.
"Cassini’s legacy of discoveries in the Saturn system is profound," said Spilker. "We won't get this close to Enceladus again with Cassini, but our travels have opened a path to the exploration of this and other ocean worlds."
Cassini Completes Final Close Enceladus Flyby
NASA's Cassini spacecraft paused during its final close flyby of Enceladus to focus on the icy moon's craggy, dimly lit limb, with the planet Saturn beyond.
Credits: NASA/JPL-Caltech/Space Science Institute
NASA's Cassini spacecraft has begun transmitting data and images from the mission's final close flyby of Saturn's active moon Enceladus. Cassini passed Enceladus at a distance of 3,106 miles (4,999 kilometers) on Saturday, Dec. 19, at 9:49 a.m. PST (12:49 p.m. EST).
"This final Enceladus flyby elicits feelings of both sadness and triumph," said Earl Maize, Cassini project manager at JPL. "While we're sad to have the close flybys behind us, we've placed the capstone on an incredible decade of investigating one of the most intriguing bodies in the solar system."
Cassini will continue to monitor activity on Enceladus from a distance, through the end of its mission in Sept. 2017. Future encounters will be much farther away -- at closest, more than four times farther than this latest encounter.
This was the 22nd Enceladus encounter of Cassini's mission. The spacecraft's discovery of geologic activity there, not long after arriving at Saturn, prompted changes to the mission's flight plan to maximize the number and quality of flybys of the icy moon.
"We bid a poignant goodbye to our close views of this amazing icy world," said Linda Spilker, the mission's project scientist at NASA's Jet Propulsion Laboratory in Pasadena, California. "Cassini has made so many breathtaking discoveries about Enceladus, yet so much more remains to be done to answer that pivotal question, 'Does this tiny ocean world harbor life?'"
After revealing Enceladus' surprising geologic activity in 2005, Cassini made a series of discoveries about the material gushing from warm fractures near its south pole. Scientists announced strong evidence for a regional subsurface sea in 2014, revising their understanding in 2015 to confirm that the moon hosts a global ocean beneath its icy crust.
During its final close flyby of Saturn's moon Enceladus, NASA's Cassini spacecraft captured this view featuring the nearly parallel furrows and ridges of the feature named Samarkand Sulci.
NASA's Cassini spacecraft peered out over the northern territory on Saturn's moon Enceladus, capturing this view of two different terrain types. A region of older terrain covered in craters that have been modified by geological processes is seen at right, while at left is a province of relatively craterless, and presumably more youthful, wrinkled terrain. Cassini acquired the view during its final close flyby of Enceladus, on Dec. 19, 2015.