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Saturn, Approaching Northern Summer
Since NASA’s Cassini spacecraft arrived at Saturn in mid-2004, the planet’s appearance has changed greatly. The shifting angle of sunlight as the seasons march forward has illuminated the giant hexagon-shaped jet stream around the north polar region, and the subtle bluish hues seen earlier in the mission have continued to fade. Earlier views obtained in 2004 and 2009 (see PIA06077 and PIA11667) demonstrate how drastically the illumination has changed.
This view shows Saturn’s northern hemisphere in 2016, as that part of the planet nears its northern hemisphere summer solstice in May 2017. Saturn’s year is nearly 30 Earth years long, and during its long time there, Cassini has observed winter and spring in the north, and summer and fall in the south. The spacecraft will complete its mission just after northern summer solstice, having observed long-term changes in the planet’s winds, temperatures, clouds and chemistry.
Cassini scanned across the planet and its rings on April 25, 2016, capturing three sets of red, green and blue images to cover this entire scene showing the planet and the main rings. The images were obtained using Cassini’s wide-angle camera at a distance of approximately 1.9 million miles (3 million kilometers) from Saturn and at an elevation of about 30 degrees above the ring plane. The view looks toward the sunlit side of the rings from a sun-Saturn-spacecraft angle, or phase angle, of 55 degrees. Image scale on Saturn is about 111 miles (178 kilometers) per pixel.
The exposures used to make this mosaic were obtained just prior to the beginning of a 44-hour movie sequence
Image credit: NASA/JPL-Caltech/Space Science Institute
Cassini Begins Epic Final Year at Saturn
After more than 12 years studying Saturn, its rings and moons, NASA’s Cassini spacecraft has entered the final year of its epic voyage. The conclusion of the historic scientific odyssey is planned for September 2017, but not before the spacecraft completes a daring two-part endgame.
Beginning on November 30, Cassini’s orbit will send the spacecraft just past the outer edge of the main rings. These orbits, a series of 20, are called the F-ring orbits. During these weekly orbits, Cassini will approach to within 4,850 miles (7,800 kilometers) of the center of the narrow F ring, with its peculiar kinked and braided structure.
“During the F-ring orbits we expect to see the rings, along with the small moons and other structures embedded in them, as never before,” said Linda Spilker, Cassini project scientist at NASA’s Jet Propulsion Laboratory, Pasadena, California. “The last time we got this close to the rings was during arrival at Saturn in 2004, and we saw only their backlit side. Now we have dozens of opportunities to examine their structure at extremely high resolution on both sides.”
The Last Act: A Grand Finale
Cassini’s final phase — called the Grand Finale — begins in earnest in April 2017. A close flyby of Saturn’s giant moon Titan will reshape the spacecraft’s orbit so that it passes through the gap between Saturn and the rings – an unexplored space only about 1,500 miles (2,400 kilometers) wide. The spacecraft is expected to make 22 plunges through this gap, beginning with its first dive on April 27.
During the Grand Finale, Cassini will make the closest-ever observations of Saturn, mapping the planet’s magnetic and gravity fields with exquisite precision and returning ultra-close views of the atmosphere. Scientists also hope to gain new insights into Saturn’s interior structure, the precise length of a Saturn day, and the total mass of the rings — which may finally help settle the question of their age. The spacecraft will also directly analyze dust-sized particles in the main rings and sample the outer reaches of Saturn’s atmosphere — both first-time measurements for the mission.
“It’s like getting a whole new mission,” said Spilker. “The scientific value of the F ring and Grand Finale orbits is so compelling that you could imagine a whole mission to Saturn designed around what we’re about to do.”
Getting Into Saturn, Literally
Since the beginning of 2016, mission engineers have been tweaking Cassini’s orbital path around Saturn to position the spacecraft for the mission’s final phase. They have sent the spacecraft on a series of flybys past Titan that are progressively raising the tilt of Cassini’s orbit with respect to Saturn’s equator and rings. This particular orientation enables the spacecraft to leap over the rings with a single (and final) Titan flyby in April, to begin the Grand Finale.
“We’ve used Titan’s gravity throughout the mission to sling Cassini around the Saturn system,” said Earl Maize, Cassini project manager at JPL. “Now Titan is coming through for us once again, providing a way for Cassini to get into these completely unexplored regions so close to the planet.”
The Grand Finale will come to a dramatic end on Sept. 15, 2017, as Cassini dives into Saturn’s atmosphere, returning data about the planet’s chemical composition until its signal is lost. Friction with the atmosphere will cause the spacecraft to burn up like a meteor soon afterward.
To celebrate the beginning of the final year and the adventure ahead, the Cassini team is releasing a new movie of the rotating planet, along with a color mosaic, both taken from high above Saturn’s northern hemisphere. The movie covers 44 hours, or just over four Saturn rotations.
‘A Truly Thrilling Ride’
“This is the sort of view Cassini will have as the spacecraft repeatedly climbs high above Saturn’s northern latitudes before plunging past the outer — and later the inner — edges of the rings,” said Spilker.
And so, although the mission’s end is approaching — with a “Cassini Final Plunge” clock already counting down in JPL mission control — an extremely important phase of the mission is still to come.
“We may be counting down, but no one should count Cassini out yet,” said Curt Niebur, Cassini program scientist at NASA Headquarters in Washington. “The journey ahead is going to be a truly thrilling ride.”
The Cassini-Huygens mission is a cooperative project of NASA, ESA (European Space Agency) and the Italian Space Agency. NASA’s Jet Propulsion Laboratory, a division of Caltech in Pasadena, manages the mission for NASA’s Science Mission Directorate, Washington. JPL designed, developed and assembled the Cassini orbiter.
source : NASA – Jet Propulsion Laboratory – California Institute of Technology